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Nemo File Format Specification

Version 2.34

Notices U.S.Government Warranty

Copyright Notice
Rights THE MATERIAL CONTAINED IN THIS
DOCUMENT IS PROVIDED “AS IS,”
© Keysight Technologies, Inc. 2017 The Software is “commercial computer software,” AND IS SUBJECT TO BEING
No part of this manual may be reproduced in any as defined by Federal Acquisition Regulation CHANGED, WITHOUT NOTICE, IN
form or by any means (including electronic (“FAR”) 2.101. Pursuant to FAR 12.212 and FUTURE EDITIONS. FURTHER, TO
storage and retrieval or translation into a foreign 27.405-3 and Department of Defense FAR THE MAXIMUM EXTENT PERMITTED
language) without prior agreement and written Supplement (“DFARS”) 227.7202, the U.S. BY APPLICABLE LAW, KEYSIGHT
consent from Keysight Technologies, as governed government acquires commercial computer DISCLAIMS ALL WARRANTIES,
by United States and international copyright laws. software under the same terms by which the EITHER EXPRESS OR IMPLIED WITH
software is customarily provided to the public. REGARD TO THIS MANUAL AND ANY
Edition Accordingly, Keysight provides the Software to INFORMATION CONTAINED HEREIN,
U.S. government customers under its standard INCLUDING BUT NOT LIMITED TO THE
Edition 2.34, February 2018
commercial license, which is embodied in its End IMPLIED WARRANTIES OF
Documents Software Version 2.34
User License Agreement (EULA), a copy of which MERCHANTABILITY AND FITNESS
can be found at FOR A PARTICULAR PURPOSE.
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data.

TABLE OF CONTENTS

1 CHANGE HISTORY
2 INTRODUCTION
2.1 HOW TO READ THIS DOCUMENT
3 DESCRIPTION OF THE FILE FORMAT
3.1 EVENT ID
3.2 TIME
3.3 CONTEXT IDS
3.4 EVENT PARAMETERS

4 MEASUREMENT FILE NAMING

5 EVENTS

1 CHANGE HISTORY

New to 2.34

Added support for Autonomous Probe serial number. (#SERVERHW)

Added support for power save mode. (PSM)
Added support for syncronization channel RSSI measurements. (OFDMSCAN)
Added support for NB-IoT channel raster offset. (SCANCONFIG, OFDMSCAN)
Added support for NB-IoT NRS and NPSS signal types. (OFDMSCAN)
Added support for data connection processing delay. (DCOMP)
Added data connection context ID to the DNSQUERY. (DNSQUERY)
Added support for bandwidth agnostic EVS codec rates for situations when exact bandwidth is unknown.
(AMRS)
Added support for QoS class identifier (QCI) per EPS bearer. (PBC)
Added support for initial coverage enhancement level during LTE RACH procedure. (RACHI)
Renamed TCP connection establishment time to TCP handshake time. (DCOMP)

2 INTRODUCTION
You should read the following chapters carefully before you start analyzing your measurement files.

This document is a description of the Keysight Technologies open ASCII file format. All Nemo tools produce this type of
measurement files and the files can be viewed and analyzed using various methods or tools; e.g., Nemo Outdoor
playback functions, Nemo Analyze, or a text editor.
The file format description includes events and event-related parameters for all network technologies that can be
measured with the Nemo tools.

2.1 HOW TO READ THIS DOCUMENT

This document is organized in such a manner that it is easy to locate specific events and parameters. From the Table
of Contents, you will find all events organized in specific groups; e.g., Handover/Handoff events, GPRS Related
events, and Call events. All events and event parameters are listed in the Index table. The events are also categorized
according to different technologies. In other words, if you are looking for all CDMA events, go to the Index (at the end
of this document) and find the keyword CDMA events. Under that keyword are listed all CDMA related events and the
page where that event can be found.
All events and their parameters are presented in table format.
The Heading displays the event name and event ID. In measurement files, the events are marked with the event ID
only.
The Event Info table presents general information of this event; for example, the cellular system where this event may
occur and the Nemo tools which produce this event. All the events produced by Nemo tools are listed in this document
with the respective parameters.

The following information is given for each event:

Event ID
Cellular systems: refers to the networks in which the event is used.
Recorded: describes the state in which the event is recorded. For voice calls the alternatives are idle and call
active. For circuit switched data calls the alternatives are idle, call active, and data transfer. For PS data calls
(GPRS) the alternatives are idle, attach, packet active, and data transfer. For GSM the state is idle if the phone
is on a control channel and call active if the phone is on a traffic channel. The diagram below describes the
different recording states and the events that initiate the state transitions.
Nemo Tools: refers to the Nemo tools that produce the event.

The following information is given for all parameters:

Name defines the short parameter name displayed, for example, in Nemo Outdoor windows.
Type: defines the parameter type. The alternatives are integer, string, hex(adecimal data), and float.
Description of the parameter and possible limits and alternatives. On the first line of this field is stated the long
parameter name. This name is used when selecting parameters to be displayed in the Nemo Outdoor
windows.
Only the event specific parameters are listed here. However, each event also has the time and location
information. But to save space, the time and location parameters are explained only once in chapter 3.3 Event
Structure. The event specific parameters are marked with bold type in the event examples.

The Parameters table lists all the parameters that belong to this specific event. The number of parameters differs
from one event to another: while one event may have only one parameter, another event may have as many as ten.
Furthermore, the same parameter can appear in several events. For each parameter are displayed the parameter
name, type, and a description of the parameter. If the parameter has been shaded, it means that this parameter is
repeated. In other words, there may appear several of these parameters in one event.

Finally, an example of how the event might look like in the actual measurement file is given. For example, this is how
you would interpret the example above:

LLCSM,12:13:14.156,,1,1,"UI-CMD","PACCH","01C00B"

The first two parameters after the event ID are common to all events. For more information on these common events,
see chapter 3.3 Event Structure.

LLCSM = event ID; i.e., this is a LLC layer signaling event.

12:13:14:156 = time in the following format [Hour]:[Min]:[Sec].[thousands of seconds]
Empty parameter = Number of context IDs is zero since LLC signaling event does not use context IDs.

The events that come after the time are event specific parameters. Only these parameters are explained in the
Parameters table after each event. In the examples, the event specific parameters are marked with bold type to
distinguish them from the common parameters.

1 = Measured system (GSM)

1 = Message direction (uplink)
UI-CMD = LLC message name
PACCH = Sub channel name
01C00B = Content of the LLC message

3 DESCRIPTION OF THE FILE FORMAT

An event is an ASCII string that has an unspecified length. All events are separated from each other with the ?new
line? character. Different fields in each event are separated from each other by the comma character. If a value is not
available (n/a), the value is omitted from the ASCII string and the omission indicated by two consecutive commas. This
document describes the initial set of events and their parameters. However, new events or event parameters can be
added to the file format later on.

[event ID],[time],[number of context IDs],[context ID1],[context ID2],...,[event parameters]

Example:

[event ID] [time] [number of context IDs] [id1] [event parameters]

CAA, 01:11:46.120, 1, 30, 1,1,"1234567"

3.1 EVENT ID

The event ID is unique identifier for each measurement event. The event ID defines the meaning for context IDs and
for the parameters. An event ID is an string of characters without double quotes.

3.2 TIME

Time is presented in the following format:

[Hour]:[Min]:[Sec].[thousands of seconds]

3.3 CONTEXT IDS

Contexts are used in identifying measurement events written during simultaneous ?sessions?. For example, when
there are two simultaneous data transfers, both data transfers use a different context ID value. Context ID values are
unique only within the scope of each context ID type contained in a single measurement file, i.e. different context ID
types can use the same value. In each measurement event there can be an arbitrary number of context IDs for
different purposes. The event definition specifies the meaning of each context ID. If a measurement event does not
contain any context IDs, number of context IDs is omitted and the omission indicated by two consecutive commas.
Note also that the context ID number defines the number of context IDs in a particular measurement event, i.e. the
context ID number does not refer to the number of simultaneously active ?sessions?. The context information is
presented in the following format:

[number of context IDs],[id1],[id2],[id3],...

Since the idea of context IDs is quite complex, some common usage examples are provided below. In each
example, irrelevant event parameters are expressed using three dots. As timestamp information is not relevant
either, the text 'timestamp' is used in place of the timestamp.

Example 1

PAA,timestamp,1,100,...

The PAA measurement event starts a new packet session (in 3GPP systems this is the same as PDP context). The
event contains only one context ID value, the value 100. The PAA measurement event specification defines that the
first and the only context ID is the same as Packet session context ID. Other measurement events can use the
Packet session context ID value 100 to refer to this particular packet session.

Example 2

PAC,timestamp,1,100,...

The PAC measurement event is written when a packet session is connected. The event contains only one context ID
value, the value 100. Based on the event specification, the type of the context ID is Packet session context ID, i.e.
the same as with the PAA measurement event. This packet session connection is intended to be paired with the PAA
measurement event in Example 1. If there are multiple simultaneous packet session attempts, the context ID value
indicates which of the packet sessions is connected.

Example 3

DAA,timestamp,3,150,100,,...

The DAA measurement event is written for each data connection attempt, e.g. when FTP logon is started. The
measurement event contains three context ID values, the values 150, 100, and n/a. Based on the event
specification, the first context ID is Data connection context ID. As with the PAA measurement event, other
measurement events can use the Data connection context ID value 150 to refer to this particular data connection.

The type of the second context ID is packet session context ID with the context ID value 100. Again, this context ID
refers to the packet session started in Example 1. The type of the last context ID is Call context ID without context ID
value. The DAA measurement event does not refer to any circuit-switched data as there is no context ID value. This
behaviour is normal and due to a situation where the event is already associated with some packet session. Data
connection can established using either a packet connection or a circuit-switched connection, but not both. Thus,
only one of the context IDs can have a valid value.

Example 4

MSGA,timestamp,1,100,1,1,...

The MSGA measurement event is used in indicating SMS or MMS message sending. The event contains only one
context ID value, the value 100. As the MSGA event specification defines two different context types, the use of the
parameter Message type is necessary for deducting the correct context type. In this particular example, the Message
type value is 1 (=SMS message), reflecting the fact that the event contains an SMS context ID.

Note also that even though the SMS context ID value is 100, i.e. the same as the Packet session context ID in the
PAA measurement event in Example 1, these two are not related in any way as they differ in their context type.
Within the scope of a single measurement file, the context ID values are unique only within each context type.

3.4 EVENT PARAMETERS

An event specifies what parameters or values are presented in each specific case. The parameter field should stay
unchanged but new parameters can be added such that backward compatibility is maintained. In practice this means
that new parameters can be added to the end of the measurement event or to the middle of the measurement event
if event structure supports that kind of additions and normally Number of Parameters -field indicates that.

Example:
Old event CAA,[time],,[cellular system],[call type],[phone number]
New event CAA,[time],,[cellular system],[call type],[phone number],[new parameter]

Parameter can have one of the following types:

Type Syntax
Integer Contains only characters ?-0123456789?, e.g. 593.
Float Contains always one dot and characters ?-.0123456789?, e.g. -30.63.
String UTF8 string surrounded by double quotes, e.g. "Good measurement!".

4 MEASUREMENT FILE NAMING

Measurement files are named in following format:

[filename].[device ID].nmf

Filename is defined by user or auto-generated by measurement tool.

Device ID is used to separate simultaneous measurement files when multiple devices are used simultaneously.

5 EVENTS

Antenna gain (#AG)

Event ID #AG
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
AG Float Antenna gain
Signal gain achieved by using an external antenna attached to
a mobile phone. Value is obtained from the antenna
specifications.
Unit: dBi
BTS filename (#BF)
Event ID #BF
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
BTS file String BTS filename
File containing base station location information. The file
extension is NBF.

BTS template (#BTSTEMPLATE)

Event ID #BTSTEMPLATE
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
BTS template String BTS template filename
File containing template headers for a base station file (.nbt).

Cell whitelist (#CELLWHITELIST)

Event ID #CELLWHITELIST
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
BTS whitelist String BTS whitelist filename
File containing a list of whitelisted base stations.

Conversion info (#CI)

Event ID #CI
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Converter name String Converter name
Converter version String Converter version
Converted file String Converted filename

Cable loss (#CL)

Event ID #CL
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
CL Float Cable loss
Signal loss due to the antenna cable when using external
antenna attached to a mobile phone. Value is obtained from the
cable specifications.
Unit: dBm

Device label (#DL)

Event ID #DL
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Device label String Device label
Short textual description of the device. For example, this could
contain information about the usage of the device.

Device name (#DN)

Event ID #DN
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
Device name String Device name
Describes the type of mobile phone used in measurements.
Device system (#DS)
Event ID #DS
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
Number of supported Integer Number of supported systems
systems
Supported systems Integer Supported systems
Supported systems. Depends on the measurement tool and
device capabilities. With fixed-line measurement tools, it is also
possible to use PSTN and ISDN values.
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO
20 = WLAN
21 = GAN WLAN
25 = WiMAX
50 = NMT
51 = AMPS
52 = NAMPS
53 = DAMPS
54 = ETACS
55 = iDEN
60 = PSTN
61 = ISDN
62 = IP
65 = DVB-H

Device type (#DT)

Event ID #DT
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |
Parameters |Top|
Name Type Description
Device type Integer Device type
1 = Phone
2 = Scanner

Device configuration (#DC)

Event ID #DC
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log the static device configuration,
e.g. supported down converters or front ends etc.
Tools Nemo Outdoor
|Parameters |

Parameters |Top|
Name Type Description
Device configuration String Device configuration
At the moment this is only used to define supported down
converters with FSR1 scanner.

EVRC info (#EVRC)

Event ID #EVRC
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor
|Parameters |

Parameters |Top|
Name Type Description
EVRC status Integer EVRC status
0 = Off
1 = On
File format (#FF)
Event ID #FF
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
File format version String File format version

Floorplan information (#FLOORPLAN)

Event ID #FLOORPLAN
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Floorplan String Floorplan file name
file name
Floorplan Integer Floorplan coordinate system
coordinate 1 = GPS
system 2 = Metric
3 = UTM
Universal Transverse Mercator coordinates. See more
http://en.wikipedia.org/wiki/Universal_Transverse_Mercator_coordinate_system.
iBwave String iBwave file name
file name
Venue String Venue name
name Venue or address of the building.
Building String Building name
name
Floor String Floor name
name
Equipment identity (#EI)
Event ID #EI
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Device identity String Device identity
This value is unique for each piece of equipment. For GSM and
UMTS systems this is the same as IMEI (International Mobile
Equipment Identity).

Handler version (#HV)

Event ID #HV
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Handler version String Handler version
Defines the handler version that was used when generating the
file.
Device hardware version (#HW)
Event ID #HW
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
Hardware version String Hardware version
Manufacturer String Manufacturer
Model String Model

Measurement ID (#ID)
Event ID #ID
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Measurement ID String Measurement ID
The identification tag is generated by using Microsoft Windows
GUID functions. It is used to identify all simultaneously
generated measurement files made by one measurement tool.

Server information (#SERVER)

Event ID #SERVER
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Server
|Parameters |Parameters for Invex |Parameters for Nemo Server |

Parameters |Top|
Name Type Description
Server HW type Integer Server hardware type
1 = Invex I
2 = Invex II
4 = Nemo Server

Parameters for Invex |Top|

Name Type Description
Host String Invex host address
Device connector Integer Invex device connector
1 = USB 1
2 = USB 2
3 = USB 3
Only with Invex II.
4 = USB 4
Only with Invex II.
5 = USB 5
Only with Invex II.
6 = USB 6
Only with Invex II.

Parameters for Nemo Server |Top|

Name Type Description
Host String Server host address
IP String Server IP addresses
Comma separated list of IP addresses.

Server hardware information (#SERVERHW)

Event ID #SERVERHW
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Server
|Parameters |Parameters for Outdoor |Parameters for Invex |Parameters for Autonomous Probe |Parameters for Nemo Server |

Parameters |Top|
Name Type Description
Server HW type Integer Server hardware type
0 = Outdoor
1 = Invex I
2 = Invex II
3 = Autonomous Probe
4 = Nemo Server
Parameters for Outdoor |Top|
Name Type Description
HIM model String Invex handset isolation module model
HIM HW String Invex handset isolation module hardware version
HIM SN String Invex handset isolation module serial number
HIM SW String Invex handset isolation module software version
HIM device ID String Invex handset isolation module device ID
CPU String Invex CPU model

Parameters for Invex |Top|

Name Type Description
Invex UIC model String Invex UIC model
UIC HW String Invex UIC hardware version
UIC SN String Invex UIC serial number
UIC SW String Invex UIC software version
BP model String Invex backplane model
BP HW String Invex backplane hardware version
BP SN String Invex backplane serial number
BP SW String Invex backplane software version
HIM model String Invex handset isolation module model
HIM HW String Invex handset isolation module hardware version
HIM SN String Invex handset isolation module serial number
HIM SW String Invex handset isolation module software version
HIM device ID String Invex handset isolation module device ID
CPU String Invex CPU model
Chassis Integer Invex chassis number
Slot Integer Invex slot number
Device connector Integer Invex device connector
1 = USB 1
2 = USB 2
3 = USB 3
Only with Invex II.
4 = USB 4
Only with Invex II.
5 = USB 5
Only with Invex II.
6 = USB 6
Only with Invex II.

Parameters for Autonomous Probe |Top|

Name Type Description
AP model String Autonomous Probe model
AP SW String Autonomous Probe software version
AP CPU String Autonomous Probe CPU model
AP device connector Integer Autonomous Probe device connector
1 = USB 1
2 = USB 2
3 = USB 3
4 = USB 4
5 = USB 5
6 = USB 6
AP SN String Autonomous Probe serial number
Parameters for Nemo Server |Top|
Name Type Description
Model String Server model
Manufacturer String Server manufacturer
SW String Server software version
CPU String Server CPU model
SN String Server serial number
System ID String Server system ID

License information (#LICENSE)

Event ID #LICENSE
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log license information.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for HASP and HLS |

Parameters |Top|
Name Type Description
License type Integer License type
1 = HASP
2 = HLS
Handy License Server.

Parameters for HASP and HLS |Top|

Name Type Description
License serial number String License serial number
License expiration date String License expiration date
Date in format dd.mm.yyyy, where dd is the day of the month,
mm is the month of the year and yyyy is the year. Empty string
when expiration date is not defined.
TS expiration date String Technical support expiration date
Date in format dd.mm.yyyy, where dd is the day of the month,
mm is the month of the year and yyyy is the year. Empty string
when expiration date is not defined.
License options String License options
Comma separated list of license options, e.g. "Qualcomm
HSPA+,Qualcomm LTE FDD,iOS NMR".
License region information (#LICENSEREGION)
Event ID #LICENSEREGION
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log license region information.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
#Countries Integer Number of countries
#Params/country Integer Number of parameters per country
MCC Integer Mobile country code
See ITU-T recommendation E.212.
Range: 0 – 999
#Operators Integer Number of operators
#Params/operator Integer Number of parameters per operator
MNC/SID Integer MNC/SID
This is MNC for 3GPP systems and SID for 3GPP2 systems.
Range: 0 – 32767

Map filename (#MF)

Event ID #MF
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Map file String Map filename
Defines the map file used during measurement.

Measurement label (#ML)

Event ID #ML
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Measurement label String Measurement label
Short textual description of the measurement.

Measurement mode (#MM)

Event ID #MM
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Measurement mode Integer Measurement mode
1 = Outdoor
2 = Indoor

Report tags (#REPORT)

Event ID #REPORT
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to indicate the role of the
measurement for the reports.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for Nemo Xynergy |

Parameters |Top|
Name Type Description
Report type Integer Report type
1 = Nemo Xynergy

Parameters for Nemo Xynergy |Top|

Name Type Description
Report name String Report name
Report ID String Report ID
Unique identifier for report.
Report tags String Report tags
Comma-separated list of report tags.

NMR information (#NMR)

Event ID #NMR
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor
|Parameters |

Parameters |Top|
Name Type Description
NMR version String NMR version
NMR features String NMR features
Comma separated list of supported NMR features, e.g.
"FTP,HTTP,VQ".

Network name (#NN)

Event ID #NN
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Network name String Network name
Specifies the name of the measured network, given by the user
in the configuration file.

Packet capture state (#PC)

Event ID #PC
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Packet capture state Integer Packet capture state
Defines if packet capturing is enabled or disabled. Log file is
stored in the same directory as the measurement file and the
log file name is the same as the measurement file with the
appendix '.pcap'. For example measurement.nemo ->
measurement.nemo.pcap.
0 = Disabled
1 = Enabled

Product information (#PRODUCT)

Event ID #PRODUCT
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
Product name String Product name
Product version String Product version
Project information (#PROJECT)
Event ID #PROJECT
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
Project ID String Project ID
Session ID String Session ID

Operating system information (#OS)

Event ID #OS
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log information about running
operating system.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Operating system String Operating system
The operating system name and the version.

Subscriber identity (#SI)

Event ID #SI
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Subscriber identity String Subscriber identity
This value is unique for each user. For GSM, UMTS, and LTE
systems this is the same as IMSI (International Mobile
Subscriber Identity).

Subscriber phone number (#SP)

Event ID #SP
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
Subscriber phone number String Subscriber phone number
Same as phone number of the caller for originated calls.

Device software version (#SW)

Event ID #SW
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Device software version String Device software version
Nemo firmware ID String Nemo firmware ID
Nemo firmware version String Nemo firmware version
Build fingerprint String Build fingerprint

Test script (#TS)

Event ID #TS
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Test script file String Test script filename
Defines the test script that was used during measurements.

Gap to UTC (#UT)

Event ID #UT
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
UTC to local Integer UTC to local time difference
Defines the time difference in minutes from UTC time to local
time. This is the same as the timezone but it is adjusted by
daylight saving.
Unit: minute
UTC to timestamp Integer UTC to timestamp time difference
Defines the time difference in minutes from UTC time to event
timestamps.
Unit: minute
Unit ID (#UNITID)
Event ID #UNITID
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Unit ID String Unit ID
Unique identifier for the measurement unit.

Voice quality version (#VQ)

Event ID #VQ
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to log static measurement settings.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
VQ type Integer Voice quality type
Defines what kind of voice quality hardware is used for the
voice quality measurements.
0 = Disabled
1 = EVOQ
2 = Soundcard based
3 = Psytechnics PSM
4 = Fixed line
5 = Invex
6 = Nemo media router
VQ version String Voice quality version
Defines the voice quality hardware version.
VQ device String Voice quality device
With sound card based voice quality tests, the parameter
contains the name of the driver and the number of the channel.
Kodiak info (#KODIAK)
Event ID #KODIAK
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
Kodiak version String Kodiak version

Start measurement (#START)

Event ID #START
Cellular systems All
Record state Start of the measurement
Description Recorded at the beginning of the measurement file to indicate the start of the
measurement, i.e. the point after which events with measurement information are
recorded.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
Date String Date
Date in format dd.mm.yyyy, where dd is the day of the month,
mm is the month of the year and yyyy is the year.

Stop measurement (#STOP)

Event ID #STOP
Cellular systems All
Record state End of the measurement
Description Recorded at the end of the measurement file to indicate the end of the measurement, i.e.
the point after which events with measurement information are no longer recorded.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
Date String Date
Date in format dd.mm.yyyy, where dd is the day of the month,
mm is the month of the year and yyyy is the year.

Hash code (#HASH)

Event ID #HASH
Cellular systems All
Record state End of the measurement
Description Recorded at the end of the measurement (after #STOP measurement event). Contains
the hash code that is calculated over the measurement.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |Parameters for MD5 |Parameters for Nemo properietary hash |

Parameters |Top|
Name Type Description
HASH code type Integer HASH code type
Defines the type of checksum used for the measurement.
1 = MD5
2 = Nemo internal
This is improved hash for our internal usage.

Parameters for MD5 |Top|

Name Type Description
HASH String (hex) HASH code
Contains MD5 (Message-Digest algorithm 5) hash code
calculated over the measurement in hex format. More
information about MD5 can be found in
http://en.wikipedia.org/wiki/Md5.

Parameters for Nemo properietary hash |Top|

Name Type Description
HASH String (hex) HASH code
This hash is calculated using properietary formula.
Call attempt (CAA)
Event ID CAA
Cellular systems All
Record state Idle state
Description Recorded for an originated call when the user has pressed the SEND key. If this is not
known (e.g. call activation is done using the keypad of the mobile station), the point in
time when the SETUP NAS signaling message or INVITE SIP message (or related when
INVITE is lost) is sent to the network. In case of incoming calls, the point in time when the
SETUP NAS message or INVITE SIP message (or related when INVITE is lost) is
received. Setup is used instead of paging request, because information on the call type
(voice or data; voice is only acceptable here) is first available in setup messaging. The
CAA measurement event begins the call attempt state.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
Call context ID Context Call context ID
Measured sys. Integer Measured system
For the incoming call this is the system where the call indication
was received. For example for LTE CSFB call the logged
system is LTE since the first indication about the incoming call
was received in LTE even though the CAA measurement event
is logged during GSM/UMTS when the SETUP L3 signaling
message was received.
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO
20 = WLAN
21 = GAN WLAN
25 = WiMAX
50 = NMT
51 = AMPS
52 = NAMPS
53 = DAMPS
54 = ETACS
55 = iDEN
60 = PSTN
61 = ISDN
62 = IP
65 = DVB-H
Call type Integer Call type
Sometimes the exact call type is not known when SEND key is
pressed and in these cases the value of this parameter is either
voice (1) or video call (7). The actual established call type is
logged to the CAC measurement event.
1 = Voice call
2 = Markov call
3 = Data call
4 = Fax call
5 = Dial-up based data call
6 = Loopback call (CDMA)
7 = Video call
8 = Push-to-talk
9 = Push-to-talk between mobiles (TETRA)
10 = VoIP
11 = Skype
12 = QChat
13 = Kodiak
14 = LTE IMS voice
15 = iDEN push-to-talk
16 = LTE IMS video
It is possible to have IMS video call with voice only. In these
cases the call type is still IMS video and video codec
parameter in the VOIPI measurement event defines the
existence of the video.
17 = WLAN IMS voice
18 = WLAN IMS video
It is possible to have IMS video call with voice only. In these
cases the call type is still IMS video and video codec
parameter in the VOIPI measurement event defines the
existence of the video.
19 = IP IMS voice
20 = WhatsApp
Call direction Integer Call direction
1 = Originated call
The test system makes the call to the other end.
2 = Terminated call
The test system receives the call from the other end.
Phone number String Phone number
This is always the remote identity. For originated calls, this is
the phone number where the calls are made to and for
terminated calls this is the number from which the call is made
from. For the VoIP calls the SIP URI format is used.
Own phone number String Own phone number
This is always the own identity. For originated calls this is the
phone number of the caller and for incoming calls this is the
own phone number. For the VoIP calls the SIP URI format is
used. Currently this parameter is only implemented for the VoIP
calls.
Call timeout Integer Call timeout
The timeout value from call attempt (CAA) to the dedicated
channel allocation (CAC 1). If call has not been established
during this time the CAF measurement event is recorded.
Unit: ms
Unique ID String Unique ID
This parameter is unique for each call, even between
measurement files, and it can be used in post-prosessing to
match orginated and terminated calls. The value of the
parameter is meaningless and it should only be used for the
matching.
CAA time correction Integer CAA time correction
In some cases the CAA measurement event is logged later than
the real call attempt. For example, for incoming calls, the CAA
measurement event is logged when the SETUP signaling
message is received and not to the paging request. This
parameter defines the time difference between the first
indication about a call and the CAA measurement event.
Currently it has only been implemented for incoming voice and
video calls.
Unit: ms
Call connect success (CAC)
Event ID CAC
Cellular systems All
Record state Call attempt state
Description Recorded in different stages of call establishment. This measurement event begins the
call connection state.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |Parameters for GSM |Parameters for TETRA |

Parameters for GSM |Top|

Name Type Description
TSL Integer Timeslot number
In case of HSCSD data test call, used timeslots are listed in a DCHI
event.
Range: 0 – 7

Parameters for TETRA |Top|

Name Type Description
TSL Integer Timeslot number
Range: 1 – 4

Call failed (CAF)

Event ID CAF
Cellular systems All
Record state Call attempt state
Description Recorded when there is a timeout or a call release before dedicated radio resource
allocation for the call. Recorded on timeout after CAA event when no service available.
With IMS based calls logged when any BYE related SIP message is sent or received, or if
300 or higher SIP response code is sent or received for INVITE, PRACK, or ACK. The
CAF measurement event ends call attempt state.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |Parameters for non-VoIP GSM, UMTS FDD, UMTS TD-SCDMA, and GAN WLAN |Parameters for non-VoIP TETRA |Parameters for LTE
|Parameters for non-VoIP cdmaOne, CDMA 1x, and EVDO |Parameters for iDEN |Parameters for ISDN |Parameters for VoIP |Parameters for Skype
|Parameters for QChat |Parameters for Kodiak |Parameters for IMS based calls |Parameters for iDEN push-to-talk |Parameters for WhatsApp |

Parameters |Top|
Name Type Description
Call context ID Context Call context ID
Measured sys. Integer Measured system
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO
20 = WLAN
21 = GAN WLAN
25 = WiMAX
50 = NMT
51 = AMPS
52 = NAMPS
53 = DAMPS
54 = ETACS
55 = iDEN
60 = PSTN
61 = ISDN
62 = IP
65 = DVB-H
Call type Integer Call type
1 = Voice call
2 = Markov call
3 = Data call
4 = Fax call
5 = Dial-up based data call
6 = Loopback call (CDMA)
7 = Video call
8 = Push-to-talk
9 = Push-to-talk between mobiles (TETRA)
10 = VoIP
11 = Skype
12 = QChat
13 = Kodiak
14 = LTE IMS voice
15 = iDEN push-to-talk
16 = LTE IMS video
It is possible to have IMS video call with voice only. In these
cases the call type is still IMS video and video codec
parameter in the VOIPI measurement event defines the
existence of the video.
17 = WLAN IMS voice
18 = WLAN IMS video
It is possible to have IMS video call with voice only. In these
cases the call type is still IMS video and video codec
parameter in the VOIPI measurement event defines the
existence of the video.
19 = IP IMS voice
20 = WhatsApp
CS fail. status Integer CS call attempt failure status
1 = Timeout before connection
Recorded for other than GSM and UMTS systems when call
has failed after timeout. With the Nemo Handy this is also
recorded when call attempt is aborted after timeout in the
call script.
2 = Call was released before connection
The caller or the network releases the call attempt before
the connection is received. Normally this happens when
CM_SERVICE_ABORT layer 3 message is sent or
CM_SERVICE_REJECT layer 3 message is received.
3 = Service not available
Recorded for call failure when mobile is not in service.
4 = Incoming call rejected
Recorded when B party rejects the call. Realization of this is
the disconnect signaling message received from the
network with CC cause value 16 (user disconnect).
5 = Test system failure
The call is considered as a test system failure when any call
associated signaling (etc. cm service request, immediate
assignment, setup, etc.) is not received after the call
attempt command has been sent to the mobile. Another
reason for this failure cause is when the called phone
number is blacklisted or delayed based on country specific
telecommunication regulations. Also this failure cause is
recorded if called phone number differs in the setup
signaling message from the one defined by user to the user
interface.
6 = SDCCH blocking
Recorded for GSM when call fails because SDCCH channel
cannot be allocated.
7 = TCH blocking
Recorded for GSM when call fails because TCH channel
cannot be allocated.
8 = RRC connection failed
Recorded for UMTS when RRC connection cannot be
established for the call.
9 = Radio bearer setup failed
Recorded for UMTS when radio bearer configuration fails or
when there is no attempt to allocate radio bearer after RRC
connection is established.
10 = SDCCH release
Recorded for GSM when network releases the SDCCH
channel before TCH assignment attempt.
11 = SDCCH drop
Recorded for GSM when call drops after SDCCH
assignment, the SETUP signaling message is received, and
before TCH is assigned.
12 = TCH assignment failure
Recorded for GSM when TCH assignment fails.
13 = Incoming call not received
Recorded when the incoming call was expected but not
received. To be able to log this status code the
measurement system must have knowledge about the
incoming call.
14 = User busy
Recorded when B party is busy and cannot answer.
Realization of this is the disconnect signaling message
received from the network with CC cause value 17 (user
busy).
20 = PPP error
Recorded for circuit-switched data call when PPP layer (MS
Windows RAS) has failed to establish PPP connection to
the dial-up server. The cause value contains returned RAS
error value.

Parameters for non-VoIP GSM, UMTS FDD, UMTS TD-SCDMA, and GAN WLAN |Top|
Name Type Description
CS disc. cause Integer CS call disconnect cause
If call is dropped due to a dial-up connection error (status code
20), the value is an OS RAS cause. Otherwise CC cause code.
1 = Unassigned (unallocated number)
3 = No route to destination
6 = Channel unacceptable
8 = Operator determined barring
16 = Normal clearing
17 = User busy
18 = No user responding
19 = User alerting, no answer
21 = Call rejected
22 = Number changed
25 = Pre-emption
26 = Non selected user clearing
27 = Destination out of order
28 = Invalid number format (incomplete number)
29 = Facility rejected
30 = Response to STATUS ENQUIRY
31 = Normal, unspecified
34 = No circuit/channel available
38 = Network out of order
41 = Temporary failure
42 = Switching equipment congestion
43 = Access information discarded
44 = Requested circuit/Channel not available
47 = Resources unavailable, unspecified
49 = Quality of service unavailable
50 = Requested facility not subscribed
55 = Incoming calls barred within the CUG
57 = Bearer capability not authorized
58 = Bearer capability not presently available
63 = Sevice or option not available, unspecified
65 = Bearer service not implemented
68 = ACM equal to or greater than ACMmax
69 = Requested facility not implemented
70 = Only restricted digital information bearer capability is
available
79 = Service or option not implemented, unspecified
81 = Invalid transaction indentifier value
87 = User not member of CUG
88 = Incompatible destination
91 = Invalid transit network selection
95 = Semantically incorrect message
96 = Invalid mandatory information
97 = Message type not non-existent
98 = Message type not compatible with protocol state
99 = Information element non existent or not implemented
100 = Conditional IE error
101 = Message not compatible with protocol state
102 = Recovery on timer expiry
111 = Protocol error, unspecified
127 = Interworking, unspecified
600 = An operation is pending.
601 = An invalid port handle was detected.
602 = The specified port is already open.
603 = The caller's buffer is too small.
604 = Incorrect information was specified.
605 = The port information cannot be set.
606 = The specified port is not connected.
607 = An invalid event was detected.
608 = A device was specified that does not exist.
609 = A device type was specified that does not exist.
610 = An invalid buffer was specified.
611 = A route was specified that is not available.
612 = A route was specified that is not allocated.
613 = An invalid compression was specified.
614 = There were insufficient buffers available.
615 = The specified port was not found.
616 = An asynchronous request is pending.
617 = The modem (or other connecting device) is already
disconnecting.
618 = The specified port is not open.
619 = The specified port is not connected.
620 = No endpoints could be determined.
621 = The system could not open the phone book file.
622 = The system could not load the phone book file.
623 = The system could not find the phone book entry for this
connection.
624 = The system could not update the phone book file.
625 = The system found invalid information in the phone book
file.
626 = A string could not be loaded.
627 = A key could not be found.
628 = The connection was closed.
629 = The connection was closed by the remote computer.
630 = The modem (or other connecting device) was
disconnected due to hardware failure.
631 = The user disconnected the modem (or other connecting
device).
632 = An incorrect structure size was detected.
633 = The modem (or other connecting device) is already in use
or is not configured properly.
634 = Your computer could not be registered on the remote
network.
635 = There was an unknown error.
636 = The device attached to the port is not the one expected.
637 = A string was detected that could not be converted.
638 = The request has timed out.
639 = No asynchronous net is available.
640 = An error has occurred involving NetBIOS.
641 = The server cannot allocate NetBIOS resources needed to
support the client.
642 = One of your computer's NetBIOS names is already
registered on the remote network.
643 = A network adapter at the server failed.
644 = You will not receive network message popups.
645 = There was an internal authentication error.
646 = The account is not permitted to log on at this time of day.
647 = The account is disabled.
648 = The password for this account has expired.
649 = The account does not have permission to dial in.
650 = The remote access server is not responding.
651 = The modem (or other connecting device) has reported an
error.
652 = There was an unrecognized response from the modem
(or other connecting device).
653 = A macro required by the modem (or other connecting
device) was not found in the device.INF file.
654 = A command or response in the device.INF file section
refers to an undefined macro.
655 = The macro was not found in the device.INF file section.
656 = The macro in the device.INF file section contains an
undefined macro.
657 = The device.INF file could not be opened.
658 = The device name in the device.INF or media.INI file is too
long.
659 = The media.INI file refers to an unknown device name.
660 = The device.INF file contains no responses for the
command.
661 = The device.INF file is missing a command.
662 = There was an attempt to set a macro not listed in
device.INF file section.
663 = The media.INI file refers to an unknown device type.
664 = The system has run out of memory.
665 = The modem (or other connecting device) is not properly
configured.
666 = The modem (or other connecting device) is not
functioning.
667 = The system was unable to read the media.INI file.
668 = The connection was terminated.
669 = The usage parameter in the media.INI file is invalid.
670 = The system was unable to read the section name from
the media.INI file.
671 = The system was unable to read the device type from the
media.INI file.
672 = The system was unable to read the device name from the
media.INI file.
673 = The system was unable to read the usage from the
media.INI file.
674 = The system was unable to read the maximum connection
BPS rate from the media.INI file.
675 = The system was unable to read the maximum carrier
connection speed from the media.INI file.
676 = The phone line is busy.
677 = A person answered instead of a modem (or other
connecting device).
678 = There was no answer.
679 = The system could not detect the carrier.
680 = There was no dial tone.
681 = The modem (or other connecting device) reported a
general error.
682 = There was an error in writing the section name.
683 = There was an error in writing the device type.
684 = There was an error in writing the device name.
685 = There was an error in writing the maximum connection
speed.
686 = There was an error in writing the maximum carrier speed.
687 = There was an error in writing the usage.
688 = There was an error in writing the default-off.
689 = There was an error in reading the default-off.
690 = ERROR_EMPTY_INI_FILE
691 = Access was denied because the username and/or
password was invalid on the domain.
692 = There was a hardware failure in the modem (or other
connecting device).
693 = ERROR_NOT_BINARY_MACRO
694 = ERROR_DCB_NOT_FOUND
695 = The state machines are not started.
696 = The state machines are already started.
697 = The response looping did not complete.
698 = A response keyname in the device.INF file is not in the
expected format.
699 = The modem (or other connecting device) response
caused a buffer overflow.
700 = The expanded command in the device.INF file is too long.
701 = The modem moved to a connection speed not supported
by the COM driver.
702 = Device response received when none expected.
703 = The connection needs information from you, but the
application does not allow user interaction.
704 = The callback number is invalid.
705 = The authorization state is invalid.
706 = ERROR_WRITING_INITBPS
707 = There was an error related to the X.25 protocol.
708 = The account has expired.
709 = There was an error changing the password on the
domain. The password might have been too short or might have
matched a previously used password.
710 = Serial overrun errors were detected while communicating
with the modem.
711 = The Remote Access Service Manager could not start.
Additional information is provided in the event log.
712 = The two-way port is initializing. Wait a few seconds and
redial.
713 = No active ISDN lines are available.
714 = No ISDN channels are available to make the call.
715 = Too many errors occurred because of poor phone line
quality.
716 = The Remote Access Service IP configuration is unusable.
717 = No IP addresses are available in the static pool of
Remote Access Service IP addresses.
718 = The connection timed out waiting for a valid response
from the remote computer.
719 = The connection was terminated by the remote computer.
720 = The connection attempt failed because your computer
and the remote computer could not agree on PPP control
protocols.
721 = The remote computer is not responding.
722 = Invalid data was received from the remote computer. This
data was ignored.
723 = The phone number, including prefix and suffix, is too
long.
724 = The IPX protocol cannot dial out on the modem (or other
connecting device) because this computer is not configured for
dialing out (it is an IPX router).
725 = The IPX protocol cannot dial in on the modem (or other
connecting device) because this computer is not configured for
dialing in (the IPX router is not installed).
726 = The IPX protocol cannot be used for dialing out on more
than one modem (or other connecting device) at a time.
727 = Cannot access TCPCFG.DLL.
728 = The system cannot find an IP adapter.
729 = SLIP cannot be used unless the IP protocol is installed.
730 = Computer registration is not complete.
731 = The protocol is not configured.
732 = Your computer and the remote computer could not agree
on PPP control protocols.
733 = Your computer and the remote computer could not agree
on PPP control protocols.
734 = The PPP link control protocol was terminated.
735 = The requested address was rejected by the server.
736 = The remote computer terminated the control protocol.
737 = Loopback was detected.
738 = The server did not assign an address.
739 = The authentication protocol required by the remote server
cannot use the stored password. Redial, entering the password
explicitly.
740 = An invalid dialing rule was detected.
741 = The local computer does not support the required data
encryption type.
742 = The remote computer does not support the required data
encryption type.
743 = The remote computer requires data encryption.
744 = The system cannot use the IPX network number
assigned by the remote computer. Additional information is
provided in the event log.
745 = ERROR_INVALID_SMM
746 = ERROR_SMM_UNINITIALIZED
747 = ERROR_NO_MAC_FOR_PORT
748 = ERROR_SMM_TIMEOUT
749 = ERROR_BAD_PHONE_NUMBER
750 = ERROR_WRONG_MODULE
751 = The callback number contains an invalid character. Only
the following 18 characters are allowed: 0 to 9, T, P, W, (, ), -,
@, and space.
752 = A syntax error was encountered while processing a
script.
753 = The connection could not be disconnected because it
was created by the multi-protocol router.
754 = The system could not find the multi-link bundle.
755 = The system cannot perform automated dial because this
connection has a custom dialer specified.
756 = This connection is already being dialed.
757 = Remote Access Services could not be started
automatically. Additional information is provided in the event
log.
758 = Internet Connection Sharing is already enabled on the
connection.
759 = An error occurred while the existing Internet Connection
Sharing settings were being changed.
760 = An error occurred while routing capabilities were being
enabled.
761 = An error occurred while Internet Connection Sharing was
being enabled for the connection.
762 = An error occurred while the local network was being
configured for sharing.
763 = Internet Connection Sharing cannot be enabled. There is
more than one LAN connection other than the connection to be
shared.
764 = No smart card reader is installed.
765 = Internet Connection Sharing cannot be enabled. A LAN
connection is already configured with the IP address that is
required for automatic IP addressing.
766 = A certificate could not be found. Connections that use the
L2TP protocol over IPSec require the installation of a machine
certificate, also known as a computer certificate.
767 = Internet Connection Sharing cannot be enabled. The LAN
connection selected as the private network has more than one
IP address configured. Please reconfigure the LAN connection
with a single IP address before enabling Internet Connection
Sharing.
768 = The connection attempt failed because of failure to
encrypt data.
769 = The specified destination is not reachable.
770 = The remote computer rejected the connection attempt.
771 = The connection attempt failed because the network is
busy.
772 = The remote computer's network hardware is incompatible
with the type of call requested.
773 = The connection attempt failed because the destination
number has changed.
774 = The connection attempt failed because of a temporary
failure. Try connecting again.
775 = The call was blocked by the remote computer.
776 = The call could not be connected because the remote
computer has invoked the Do Not Disturb feature.
777 = The connection attempt failed because the modem (or
other connecting device) on the remote computer is out of
order.
778 = It was not possible to verify the identity of the server.
779 = To dial out using this connection you must use a smart
card.
780 = An attempted function is not valid for this connection.
781 = The encryption attempt failed because no valid certificate
was found.
782 = Connection Sharing (NAT) is currently installed as a
routing protocol, and must be removed before enabling Internet
Connection Sharing.
783 = Internet Connection Sharing cannot be enabled. The LAN
connection selected as the private network is either not present,
or is disconnected from the network. Please ensure that the
LAN adapter is connected before enabling Internet Connection
Sharing.
784 = You cannot dial using this connection at logon time,
because it is configured to use a user name different than the
one on the smart card. If you want to use it at logon time, you
must configure it to use the user name on the smart card.
785 = You cannot dial using this connection at logon time,
because it is not configured to use a smart card. If you want to
use it at logon time, you must edit the properties of this
connection so that it uses a smart card.
786 = The L2TP connection attempt failed because there is no
valid machine certificate on your computer for security
authentication.
787 = The L2TP connection attempt failed because the security
layer could not authenticate the remote computer.
788 = The L2TP connection attempt failed because the security
layer could not negotiate compatible parameters with the
remote computer.
789 = The L2TP connection attempt failed because the security
layer encountered a processing error during initial negotiations
with the remote computer.
790 = The L2TP connection attempt failed because certificate
validation on the remote computer failed.
791 = The L2TP connection attempt failed because security
policy for the connection was not found.
792 = The L2TP connection attempt failed because security
negotiation timed out.
793 = The L2TP connection attempt failed because an error
occurred while negotiating security.
794 = The Framed Protocol RADIUS attribute for this user is not
PPP.
795 = The Tunnel Type RADIUS attribute for this user is not
correct.
796 = The Service Type RADIUS attribute for this user is
neither Framed nor Callback Framed.
797 = The connection failed because the modem (or other
connecting device) was not found. Please make sure that the
modem or other connecting device is installed.
798 = A certificate could not be found that can be used with this
Extensible Authentication Protocol.
799 = Not available

Parameters for non-VoIP TETRA |Top|

Name Type Description
CS disc. cause Integer CS call disconnect cause
0 = Cause not defined or unknown
1 = User requested disconnect
2 = Called party busy
3 = Called party not reachable
4 = Called party does not support encryption
5 = Congestion in infrastructure
6 = Not allowed traffic case
7 = Incompatible traffic case
8 = Requested service not available
9 = Pre-emptive use of resource
10 = Invalid call identifier
11 = Call rejected by the called party
12 = No idle CC entity
13 = Expiry of timer
14 = SwMI requested disconnection
15 = Acknowledged service not completed

Parameters for LTE |Top|

Name Type Description
Reserved Integer Reserved

Parameters for non-VoIP cdmaOne, CDMA 1x, and EVDO |Top|

Name Type Description
CS disc. cause Integer CS call disconnect cause
0 = Phone is offline
20 = Phone is CDMA-locked until power cycle
CDMA only.
21 = Phone has no service
22 = Call has ended abnormally
CDMA only.
23 = Received intercept from BS
Origination and CDMA only.
24 = Received reorder from BS
Origination and CDMA only.
25 = Received release from BS
26 = Received release from BS
SO reject, CDMA only.
27 = Received incoming call from BS
28 = Received alert stop from BS
Incoming and CDMA only.
29 = Client ended call
30 = Received end activation
OTASP call and CDMA only.
31 = MC aborted origination/conversation
CDMA only.
32 = Maximum access probes transmitted
CDMA only.
33 = Persistence test failure
JCDMA and CDMA only.
34 = R-UIM not present
35 = Access attempt already in progress
36 = Access failure for reason other than the above
37 = Received retry order
Origination IS-2000 and CDMA only.
38 = Concurrent service not supported by BS
39 = No response received from BS
40 = Call rejected by BS
CDMA only.
41 = Concurrent services requested not compatible
CDMA only.
42 = Access is blocked by BS
CDMA only.
43 = Corresponds to CM_CALL_ORIG_ ERR_
ALREADY_IN_TC
44 = Call is ending due to emergency call that is flashed over
this call
CDMA only.
45 = CM is ending GPS call in favor of a user call
46 = CM is ending SMS call in favor of a user call
47 = CM is ending data call in favor of an emergency call
48 = Call rejected because of redirection or handoff

Parameters for iDEN |Top|

Name Type Description
CS cause Integer Call failure cause
0 = FNE Denies Request
1 = Target Acknowledges Alert
2 = Target Does Not Acknowledge Alert
3 = User Cancelled
4 = Radio Time-out
5 = Radio Denies Request
6 = Normal Termination
7 = Channel Failed
8 = System Busy
9 = Access Failed
10 = Target Not Responding
11 = Target Non-Existent
12 = Unanswered Call

Parameters for ISDN |Top|

Name Type Description
Q.931 Integer ISDN failure cause
1 = Unallocated or unassigned number
2 = No route to specified transit network (Transit Network
Identity)
3 = No route to destination
4 = Send special information tone
5 = Misdialled trunk prefix
6 = Channel unacceptable
7 = Call awarded and being delivered in an established channel
8 = Prefix 0 dialed but not allowed
9 = Prefix 1 dialed but not allowed
10 = Prefix 1 not dialed but required
11 = More digits received than allowed, call is proceeding
16 = Normal call clearing
17 = User busy
18 = No user responding
19 = T.301 expired, user alerted, no answer from user
20 = Subscriber absent
21 = Call rejected
22 = Number changed to number in diagnostic field
23 = Reverse charging rejected
24 = Call suspended
25 = Call resumed
26 = Non-selected user clearing
27 = Destination out of order
28 = Invalid number format or incomplete address
29 = EKTS facility rejected by network
30 = Response to STATUS ENQUIRY
31 = Normal, unspecified
33 = Circuit out of order
34 = No circuit/channel available
35 = Destination unattainable
36 = Out of order
37 = Degraded service
38 = Network out of order
39 = Transit delay range cannot be achieved
40 = Throughput range cannot be achieved
41 = Temporary failure
42 = Switching equipment congestion
43 = Access information discarded
44 = Requested circuit channel not available
45 = Preempted
46 = Precedence call blocked
47 = Resource unavailable, unspecified
49 = Quality of service unavailable
50 = Requested facility not subscribed
51 = Reverse charging not allowed
52 = Outgoing calls barred
53 = Outgoing calls barred within CUG
54 = Incoming calls barred
55 = Incoming calls barred within CUG
56 = Call waiting not subscribed
57 = Bearer capability not authorized
58 = Bearer capability not presently available
63 = Service or option not available, unspecified
65 = Bearer service not implemented
66 = Channel type not implemented
67 = Transit network selection not implemented
68 = Message not implemented
69 = Requested facility not implemented
70 = Only restricted digital information bearer capability is
available
79 = Service or option not implemented, unspecified
81 = Invalid call reference value
82 = Identified channel does not exist
83 = A suspended call exists, but this call identity does not
84 = Call identity in use
85 = No call suspended
86 = Call having the requested call identity has been cleared
87 = Called user not member of CUG
88 = Incompatible destination
89 = Non-existent abbreviated address entry
90 = Destination address missing, and direct call not subscribed
91 = Invalid transit network selection (national use)
92 = Invalid facility parameter 93 Mandatory information
element is missing
93 = Message type non-existent or not implemented
95 = Invalid message, unspecified
96 = Mandatory information element is missing
97 = Message type non-existent or not implemented
98 = Message not compatible with call state or message type
non-existent or not implemented
99 = Information element nonexistent or not implemented
100 = Invalid information element contents
101 = Message not compatible with call state
102 = Recovery on timer expiry
103 = Parameter non-existent or not implemented - passed on
111 = Protocol error, unspecified
127 = Internetworking, unspecified

Parameters for VoIP |Top|

Name Type Description
SIP cause Integer SIP cause
100 = Trying
Extended search being performed may take a significant
time so a forking proxy must send a 100 Trying response.
180 = Ringing
181 = Call is being forwarded
182 = Queued
183 = Session progress
199 = Early dialog terminated
200 = OK
202 = Accepted
The request has been understood but cannot be processed.
204 = No notification
300 = Multiple choices
301 = Moved permanently
302 = Moved temporarily
305 = Use proxy
380 = Alternative service
400 = Bad request
401 = Unauthorized
Used only by registrars or user agents. Proxies should use
proxy authorization 407.
402 = Payment required
403 = Forbidden
404 = Not found
User not found.
405 = Method not allowed
406 = Not acceptable
407 = Proxy authentication required
408 = Request timeout (could not find the user in time)
409 = Conflict
410 = Gone
The user existed once, but is not available here any more.
411 = Length required
412 = Conditional request failed
413 = Request entity too large
414 = Request-URI too long
415 = Unsupported media type
416 = Unsupported URI scheme
417 = Unknown resource priority
420 = Bad extension
Bad SIP protocol extension used, not understood by the
server.
421 = Extension required
422 = Session interval too small
423 = Interval too brief
424 = Bad location information
428 = Use identity header
429 = Provide referrer identity
430 = Flow failed
433 = Anonymity disallowed
436 = Bad identity-info
437 = Unsupported certificate
438 = Invalid identity header
439 = First hop lacks outbound support
470 = Consent needed
480 = Temporarily unavailable
481 = Call/transaction does not exist
482 = Loop detected
483 = Too many hops
484 = Address incomplete
485 = Ambiguous
486 = Busy here
487 = Request terminated
488 = Not acceptable here
489 = Bad event
491 = Request pending
493 = Undecipherable
Could not decrypt S/MIME body part.
494 = Security agreement required
500 = Server internal error
501 = Not implemented
502 = Bad gateway
503 = Service unavailable
504 = Server time-out
505 = Version not supported
513 = Message too large
580 = Precondition failure
600 = Busy everywhere
603 = Decline
604 = Does not exist anywhere
606 = Not acceptable

Parameters for Skype |Top|

Name Type Description
Skype cause Integer Skype cause
Currently this is always n/a.
Parameters for QChat |Top|
Name Type Description
QChat cause Integer QChat cause
1 = Unsupported
2 = No targets available
3 = No reply
4 = All targets reject
5 = Unknown user
6 = Invalid conference ID
7 = Invalid address
8 = Unknown call
9 = Network delay/timeout
10 = No privilege
11 = Vocoder incompatible
12 = Version not supported
13 = No resources available
14 = Invalid opcode
15 = Bad syntax
16 = Unexpected message
17 = Busy
18 = Call not running
19 = No targets registered
20 = Not a member
21 = Limits exceeded
22 = Insufficient resources for QoS
23 = Foreign dispatch targets
24 = No call type capability
25 = Alert successful
26 = System error
27 = Already a member
28 = Talk group permission denied
29 = No multicast resources
30 = Insufficient bandwidth
100 = Hangtime timer expired on the MCU
101 = No participants
All the participants have left the call.
102 = Server Abort
103 = Unresponsive
The server has not been receiving responses from the
client.
104 = Originator advanced termination
The originator has chosen to tear down the call.

Parameters for Kodiak |Top|

Name Type Description
Kodiak cause Integer Kodiak cause
1001 = ACK missing
1101 = ACK failure
1102 = UI input missing
1103 = UI not ready
1104 = API request not expected/applicable

Parameters for IMS based calls |Top|

Parameters for WhatsApp |Top|

Name Type Description
WhatsApp cause Integer WhatsApp cause
Currently this is always n/a.

Call disconnect (CAD)

Event ID CAD
Cellular systems All
Record state Call connection state
Description Recorded when call has ended and upper layer (call control layer with GSM and UMTS)
signaling has released the call. With IMS based calls logged when any BYE related SIP
message is sent or received, or if 300 or higher SIP response code is sent or received for
INVITE, PRACK, or ACK. The CAD measurement event ends call connection state.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |Parameters for non-VoIP GSM, UMTS FDD, UMTS TD-SCDMA, and GAN WLAN |Parameters for non-VoIP TETRA |Parameters for LTE
|Parameters for non-VoIP cdmaOne, CDMA 1x, and EVDO |Parameters for iDEN |Parameters for ISDN |Parameters for VoIP |Parameters for Skype
|Parameters for QChat |Parameters for Kodiak |Parameters for IMS based calls |Parameters for iDEN push-to-talk |Parameters for WhatsApp |

Parameters |Top|
Name Type Description
Call context ID Context Call context ID
Measured sys. Integer Measured system
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO
20 = WLAN
21 = GAN WLAN
25 = WiMAX
50 = NMT
51 = AMPS
52 = NAMPS
53 = DAMPS
54 = ETACS
55 = iDEN
60 = PSTN
61 = ISDN
62 = IP
65 = DVB-H
Call type Integer Call type
1 = Voice call
2 = Markov call
3 = Data call
4 = Fax call
5 = Dial-up based data call
6 = Loopback call (CDMA)
7 = Video call
8 = Push-to-talk
9 = Push-to-talk between mobiles (TETRA)
10 = VoIP
11 = Skype
12 = QChat
13 = Kodiak
14 = LTE IMS voice
15 = iDEN push-to-talk
16 = LTE IMS video
It is possible to have IMS video call with voice only. In these
cases the call type is still IMS video and video codec
parameter in the VOIPI measurement event defines the
existence of the video.
17 = WLAN IMS voice
18 = WLAN IMS video
It is possible to have IMS video call with voice only. In these
cases the call type is still IMS video and video codec
parameter in the VOIPI measurement event defines the
existence of the video.
19 = IP IMS voice
20 = WhatsApp
CS disc. status Integer CS call disconnect status
1 = Normal disconnect
Recorded when the call does NOT end abnormally, i.e. the
call is assumed to end successfully. Occurs when the user
requests call disconnection or the B party terminates the
voice call.
2 = Dropped call
This status value is used when there is no better description
for the dropped call.
3 = Dropped out of service
Recorded when the call is terminated because of missing
service.
4 = Dropped during handover/handoff/hard handover
5 = Test system failure
Currently this status value is never logged but it would be
used when an abnormal call ending was caused by the
measurement tool.
6 = Timeout
Logged when the call timeout happens between the
dedicated channel allocation (CAC 1) and alerting (CAC 2).
11 = Voice quality synchronization lost
The call was terminated because voice quality
synchronization could not be achieved or it was lost.
12 = TCH assignment failure
Recorded for GSM when TCH channel assignment fails.
Typically this occurs when the late assignment configuration
is used or when the terminal's attempt to send
ASSIGNMENT COMPLETE signaling message to the
network fails.
13 = Early release
The received call was terminated normally before the
predefined call duration was reached. Early release is not
logged if user terminates the call.
14 = User busy
Recorded when B party is busy and cannot answer.
Realization of this is the disconnect signaling message
received from the network with CC cause value 17 (user
busy).
20 = PPP error
The call was terminated because of RAS failure. The RAS
error value is stored in the cause value parameter.

Parameters for non-VoIP TETRA |Top|

Parameters for LTE |Top|

Name Type Description
Reserved Integer Reserved

Parameters for non-VoIP cdmaOne, CDMA 1x, and EVDO |Top|

Parameters for iDEN |Top|

Parameters for ISDN |Top|

Parameters for VoIP |Top|

Parameters for Skype |Top|

Name Type Description
Skype cause Integer Skype cause
Currently this is always n/a.

Parameters for QChat |Top|

Name Type Description
QChat cause Integer QChat cause
1 = Unsupported
2 = No targets available
3 = No reply
4 = All targets reject
5 = Unknown user
6 = Invalid conference ID
7 = Invalid address
8 = Unknown call
9 = Network delay/timeout
10 = No privilege
11 = Vocoder incompatible
12 = Version not supported
13 = No resources available
14 = Invalid opcode
15 = Bad syntax
16 = Unexpected message
17 = Busy
18 = Call not running
19 = No targets registered
20 = Not a member
21 = Limits exceeded
22 = Insufficient resources for QoS
23 = Foreign dispatch targets
24 = No call type capability
25 = Alert successful
26 = System error
27 = Already a member
28 = Talk group permission denied
29 = No multicast resources
30 = Insufficient bandwidth
100 = Hangtime timer expired on the MCU
101 = No participants
All the participants have left the call.
102 = Server Abort
103 = Unresponsive
The server has not been receiving responses from the
client.
104 = Originator advanced termination
The originator has chosen to tear down the call.

Parameters for Kodiak |Top|

Name Type Description
Kodiak cause Integer Kodiak cause
1001 = ACK missing
1101 = ACK failure
1102 = UI input missing
1103 = UI not ready
1104 = API request not expected/applicable

Parameters for IMS based calls |Top|

Parameters for iDEN push-to-talk |Top|

Parameters for WhatsApp |Top|

Name Type Description
WhatsApp cause Integer WhatsApp cause
Currently this is always n/a.

Call modification indication (CALLMODI)

Event ID CALLMODI
Cellular systems All
Record state Call connection state
Description Recorded when call type is modified.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Call context ID Context Call context ID
Call modification type Integer Call modification type
101 = LTE IMS voice -> GSM voice
102 = LTE IMS voice -> UMTS voice
103 = LTE IMS voice -> CDMA voice
110 = LTE IMS voice -> LTE IMS video
130 = LTE IMS voice -> WLAN IMS voice
140 = LTE IMS voice -> WLAN IMS video
201 = LTE IMS video -> GSM voice
202 = LTE IMS video -> UMTS voice
203 = LTE IMS video -> CDMA voice
210 = LTE IMS video -> LTE IMS voice
230 = LTE IMS video -> WLAN IMS voice
240 = LTE IMS video -> WLAN IMS video
310 = WLAN IMS voice -> LTE IMS voice
320 = WLAN IMS voice -> LTE IMS video
340 = WLAN IMS voice -> WLAN IMS video
410 = WLAN IMS video -> LTE IMS voice
420 = WLAN IMS video -> LTE IMS video
430 = WLAN IMS video -> WLAN IMS voice
Call modification result Integer Call modification result
1 = Success

VoIP information (VOIPI)

Event ID VOIPI
Cellular systems All
Record state Call connection state
Description Recorded when VoIP information changes.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for VoIP |Parameters for IMS calls |

Parameters |Top|
Name Type Description
Call context ID Context Call context ID
VoIP type Integer VoIP type
1 = VoIP
3 = IMS voice
4 = IMS video
#Params Integer Number of type specific parameters.
Parameters for VoIP |Top|
Name Type Description
VoIP codec String VoIP codec
Currently used VoIP codec that can change during the VoIP call. This is
the same as what is configured as audio media (m=audio) in the SDP
part of the SIP message. See more RFC 4566.

Parameters for IMS calls |Top|

Name Type Description
VoIP codec String VoIP codec
Currently used VoIP codec that can change during the VoIP call. This is
the same as what is configured as audio media (m=audio) in the SDP
part of the SIP message. See more RFC 4566.
SIP Integer SIP handshake time
handshake Time from SIP INVITE to 100 Trying message.
time Minimum value: 0
Unit: ms
VoIP video String VoIP video codec
codec Currently used VoIP video codec that can change during the VoIP call.
The parameter is empty for audio only IMS video calls. This is the same
as what is configured as video media (m=video) in the SDP part of the
SIP message. See more RFC 4566.

Voice channel information (VCHI)

Event ID VCHI
Cellular systems TETRA,GSM,UMTS FDD,LTE FDD,LTE TDD,cdmaOne,CDMA 1x,EVDO,iDEN
Record state Call connection state
Description Recorded when voice call configuration or state changes.
Tools Nemo Outdoor
|Parameters |Parameters for TETRA |System specific parameters |Call type specific parameters. |Parameters for push-to-talk |Parameters for QChat
|Parameters for Kodiak |Parameters for iDEN push-to-talk |

Parameters |Top|
Name Type Description
Call context ID Context Call context ID
Measured sys. Integer Measured system
1 = GSM
2 = TETRA
5 = UMTS FDD
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO

Parameters for TETRA |Top|

Name Type Description
PTT state Integer Push-to-talk state
1 = Idle
2 = Receiving
3 = Preparing to transmit
4 = Transmitting
PTT comm. Integer Push-to-talk communication type
type 0 = Point-to-point
1 = Point-to-multipoint
2 = Point-to-multipoint acknowledged
3 = Broadcast
PTT user String Push-to-talk user identity
identity

System specific parameters |Top|

Name Type Description
#System Integer Number of system specific parameters
parameters Currently this is always 0. The previous TETRA parameters are not
counted for this.

Call type specific parameters. |Top|

Name Type Description
Call type Integer Call type
8 = Push-to-talk
12 = QChat
13 = Kodiak
15 = iDEN push-to-talk
#Call type Integer Number of call type specific parameters
parameters

Parameters for push-to-talk |Top|

Name Type Description
PTT state Integer Push-to-talk state
1 = Idle
2 = Receiving
3 = Preparing to transmit
4 = Transmitting

Parameters for QChat |Top|

Name Type Description
PTT state Integer Push-to-talk state
1 = Idle
2 = Receiving
3 = Preparing to transmit
4 = Transmitting

Parameters for Kodiak |Top|

Name Type Description
PTT state Integer Push-to-talk state
1 = Idle
2 = Receiving
3 = Preparing to transmit
4 = Transmitting

Parameters for iDEN push-to-talk |Top|

Name Type Description
PTT state Integer Push-to-talk state
1 = Idle
2 = Receiving
3 = Preparing to transmit
4 = Transmitting

Call re-establishment (CARE)

Event ID CARE
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA
Record state Call state
Description Recorded when call re-establishment fails or is completed. This measurement event is
not recorded if no clear indication of call re-establishment attempt is received. This
requires CM Re-establishment Request L3 signaling message with GSM and Cell Update
RRC signaling message with UMTS FDD. Also note that only one measurement event is
written per radio link failure even when multiple separate re-establishment attempts have
been performed to different cells. Call re-establishment is considered successful if traffic
channel allocation succeeded with GSM or RRC reconfiguration completed succesfully
with UMTS.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for GSM, UMTS FDD, and UMTS TD-SCDMA |

Parameters |Top|
Name Type Description
Call context ID Context Call context ID
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA

Parameters for GSM, UMTS FDD, and UMTS TD-SCDMA |Top|

Name Type Description
Re-est status Integer CS call re-establishment status
1 = Re-establishment succeeded
2 = Re-establishment failed
Re-est duration Integer CS call re-establishment duration
This is the time that expires between a radio link failure and the
moment when the call is active again. For failed call re-
establishments this information is not available.
Minimum value: 0
Unit: ms

Data connection attempt (DAA)

Event ID DAA
Cellular systems All
Record state Data call connection and packet active state
Description Recorded when data connection is attempted to the server. For TCP based protocols, this
is recorded when socket connection is attempted. For UDP protocols, when the first UDP
packet is sent. The measurement event begins the data connection attempt state.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous
|Parameters |

Parameters |Top|
Name Type Description
Data connection context ID Context Data connection context ID
Packet session context ID Context Packet session context ID
Call context ID Context Call context ID
Application protocol Integer Application protocol
0 = Nemo protocol using modem connection
1 = Nemo protocol using TCP
2 = Nemo protocol using UDP
3 = FTP
4 = HTTP
5 = SMTP
6 = POP3
7 = MMS
8 = WAP 1.0
9 = Streaming
Currently this can be either VLC or Youtube.
10 = WAP 2.0
11 = HTTP browsing
12 = ICMP ping
13 = IPerf over TCP
14 = IPerf over UDP
15 = Trace route
16 = SFTP
17 = IMAP
18 = Facebook
19 = Twitter
20 = Instagram
21 = LinkedIn
22 = Youtube PEVQ-S
23 = Dropbox
24 = Speedtest
25 = mScore
26 = Netflix
27 = WhatsApp
Host address String Data transfer host address
Connection address. With MMS this is the MMS service center
address.
Host port Integer Data transfer host port
IP port.
Connection timeout Integer Data transfer connection timeout
The timeout value from data connection attempt (DAA) to the
data connection (DAC). If the data connection has not been
established during this time the DAF measurement event is
recorded.
Minimum value: 0
Unit: ms
Security protocol Integer Data transfer security protocol
0 = None
1 = SSL
2 = SSH
Authentication scheme Integer Data transfer authentication scheme
0 = Basic
1 = Digest
3 = None
4 = NTLM
5 = Negotiate

Data connection success (DAC)

Event ID DAC
Cellular systems All
Record state Data connection attempt state
Description Recorded when data connection received from the server. For non-connection TCP-
based protocols (e.g. HTTP), this is recorded when the socket connection is established.
This measurement event begins the data connection state.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous
|Parameters |

Parameters |Top|
Name Type Description
Data connection context ID Context Data connection context ID
Application protocol Integer Application protocol
0 = Nemo protocol using modem connection
1 = Nemo protocol using TCP
2 = Nemo protocol using UDP
3 = FTP
4 = HTTP
5 = SMTP
6 = POP3
7 = MMS
8 = WAP 1.0
9 = Streaming
Currently this can be either VLC or Youtube.
10 = WAP 2.0
11 = HTTP browsing
12 = ICMP ping
13 = IPerf over TCP
14 = IPerf over UDP
15 = Trace route
16 = SFTP
17 = IMAP
18 = Facebook
19 = Twitter
20 = Instagram
21 = LinkedIn
22 = Youtube PEVQ-S
23 = Dropbox
24 = Speedtest
25 = mScore
26 = Netflix
27 = WhatsApp
Data connection failed (DAF)
Event ID DAF
Cellular systems All
Record state Data connection attempt state
Description Recorded after DAA measurement event after connection attempt to server has failed.
For connection-based protocols, the logging to the server has failed, and for non-
connection based TCP protocols, the socket connection cannot be established. This
measurement event ends the data connection attempt state.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous
|Parameters |Parameters for user abort |Parameters for socket error |Parameters for Nemo protocol error |Parameters for FTP and SFTP protocol error
|Parameters for HTTP protocol error |Parameters for SMTP protocol error |Parameters for POP3 protocol error |Parameters for WAP and MMS protocol
error |Parameters for streaming protocol error |Parameters for HTTP browsing protocol error |Parameters for ICMP ping protocol error |Parameters for IPerf
protocol error |Parameters for trace route protocol error |Parameters for IMAP protocol error |Parameters for Facebook protocol error |Parameters for
Twitter protocol error |Parameters for Instagram protocol error |Parameters for LinkedIn protocol error |Parameters for Youtube PEVQ-S protocol error
|Parameters for Dropbox protocol error |Parameters for Speedtest |Parameters for mScore |Parameters for Netflix |Parameters for WhatsApp |Parameters
for test system failure |

Parameters for user abort |Top|

Name Type Description
Reserved Integer Reserved
Always n/a.
Parameters for socket error |Top|
Name Type Description
Socket cause Integer Socket cause
10004 = A blocking operation was interrupted by a call to
WSACancelBlockingCall.
10009 = The file handle supplied is not valid.
10013 = An attempt was made to access a socket in a way
forbidden by its access permissions.
10014 = The system detected an invalid pointer address in
attempting to use a pointer argument in a call.
10022 = An invalid argument was supplied.
10024 = Too many open sockets.
10035 = A non-blocking socket operation could not be
completed immediately.
10036 = A blocking operation is currently executing.
10037 = An operation was attempted on a non-blocking socket
that already had an operation in progress.
10038 = An operation was attempted on something that is not a
socket.
10039 = A required address was omitted from an operation on a
socket.
10040 = A message sent on a datagram socket was larger than
the internal message buffer or some other network limit, or the
buffer used to receive a datagram into was smaller than the
datagram itself.
10041 = A protocol was specified in the socket function call that
does not support the semantics of the socket type requested.
10042 = An unknown, invalid, or unsupported option or level
was specified in a getsockopt or setsockopt call.
10043 = The requested protocol has not been configured into
the system, or no implementation for it exists.
10044 = The support for the specified socket type does not
exist in this address family.
10045 = The attempted operation is not supported for the type
of object referenced.
10046 = The protocol family has not been configured into the
system or no implementation for it exists.
10047 = An address incompatible with the requested protocol
was used.
10048 = Only one usage of each socket address
(protocol/network address/port) is normally permitted.
10049 = The requested address is not valid in its context.
10050 = A socket operation encountered a dead network.
10051 = A socket operation was attempted to an unreachable
network.
10052 = The connection has been broken due to keep-alive
activity detecting a failure while the operation was in progress.
10053 = An established connection was aborted by the
software in your host machine.
10054 = An existing connection was forcibly closed by the
remote host.
10055 = An operation on a socket could not be performed
because the system lacked sufficient buffer space or because a
queue was full.
10056 = A connect request was made on an already connected
socket.
10057 = A request to send or receive data was disallowed
because the socket is not connected and (when sending on a
datagram socket using a sendto call) no address was supplied.
10058 = A request to send or receive data was disallowed
because the socket had already been shut down in that
direction with a previous shutdown call.
10059 = Too many references to some kernel object.
10060 = A connection attempt failed because the connected
party did not properly respond after a period of time, or
established connection failed because connected host has
failed to respond.
10061 = No connection could be made because the target
machine actively refused it.
10062 = Cannot translate name.
10063 = Name component or name was too long.
10064 = A socket operation failed because the destination host
was down.
10065 = A socket operation was attempted to an unreachable
host.
10066 = Cannot remove a directory that is not empty.
10067 = A Windows Sockets implementation may have a limit
on the number of applications that may use it simultaneously.
10068 = Ran out of quota.
10069 = Ran out of disk quota.
10070 = File handle reference is no longer available.
10071 = Item is not available locally.
10091 = WSAStartup cannot function at this time because the
underlying system it uses to provide network services is
currently unavailable.
10092 = The Windows Sockets version requested is not
supported.
10093 = Either the application has not called WSAStartup, or
WSAStartup failed.
10101 = Returned by WSARecv or WSARecvFrom to indicate
the remote party has initiated a graceful shutdown sequence.
10102 = No more results can be returned by
WSALookupServiceNext.
10103 = A call to WSALookupServiceEnd was made while this
call was still processing. The call has been canceled.
10104 = The procedure call table is invalid.
10105 = The requested service provider is invalid.
10106 = The requested service provider could not be loaded or
initialized.
10107 = A system call that should never fail has failed.
10108 = No such service is known. The service cannot be
found in the specified name space.
10109 = The specified class was not found.
10110 = No more results can be returned by
WSALookupServiceNext.
10111 = A call to WSALookupServiceEnd was made while this
call was still processing. The call has been canceled.
10112 = A database query failed because it was actively
refused.
11001 = No such host is known.
11002 = This is usually a temporary error during hostname
resolution and means that the local server did not receive a
response from an authoritative server.
11003 = A non-recoverable error occurred during a database
lookup.
11004 = The requested name is valid and was found in the
database, but it does not have the correct associated data
being resolved for.
11005 = At least one reserve has arrived.
11006 = At least one path has arrived.
11007 = There are no senders.
11008 = There are no receivers.
11009 = Reserve has been confirmed.
11010 = Error due to lack of resources.
11011 = Rejected for administrative reasons - bad credentials.
11012 = Unknown or conflicting style.
11013 = Problem with some part of the filterspec or
providerspecific buffer in general.
11014 = Problem with some part of the flowspec.
11015 = General QOS error.
11016 = An invalid or unrecognized service type was found in
the flowspec.
11017 = An invalid or inconsistent flowspec was found in the
QOS structure.
11018 = Invalid QOS provider-specific buffer.
11019 = An invalid QOS filter style was used.
11020 = An invalid QOS filter type was used.
11021 = An incorrect number of QOS FILTERSPECs were
specified in the FLOWDESCRIPTOR.
11022 = An object with an invalid ObjectLength field was
specified in the QOS provider-specific buffer.
11023 = An incorrect number of flow descriptors was specified
in the QOS structure.
11024 = An unrecognized object was found in the QOS
provider-specific buffer.
11025 = An invalid policy object was found in the QOS provider-
specific buffer.
11026 = An invalid QOS flow descriptor was found in the flow
descriptor list.
11027 = An invalid or inconsistent flowspec was found in the
QOS provider-specific buffer.
11028 = An invalid FILTERSPEC was found in the QOS
provider-specific buffer.
11029 = An invalid shape discard mode object was found in the
QOS provider-specific buffer.
11030 = An invalid shaping rate object was found in the QOS
provider-specific buffer.
11031 = A reserved policy element was found in the QOS
provider-specific buffer.

Parameters for Nemo protocol error |Top|

Name Type Description
Data transfer cause Integer Data transfer cause
1 = Timeout
2 = Invalid remote address
4 = Invalid remote file.

Parameters for FTP and SFTP protocol error |Top|

Name Type Description
FTP cause Integer FTP cause
1 = Timeout
2 = Invalid remote address
3 = Invalid username/password
4 = Invalid remote file
5 = Invalid local file
104 = Already connected
116 = Remote port cannot be zero
118 = Firewall error
120 = Service ready in nnn minutes
135 = Operation would block
141 = Unspecified FTP protocol error
202 = Command not implemented, superfluous at this site
211 = Action impossible in control's present state
212 = Action impossible while connected
213 = Action impossible while listening
421 = Service not available, closing control connection
425 = Cannot open data connection
426 = Connection closed, transfer aborted
434 = Requested host unavailable
450 = Requested file action not taken. File unavailable (e.g., file
busy)
451 = Requested action aborted, local error in processing
452 = Requested action not taken. Insufficient storage space in
system
500 = Syntax error, command unrecognized. This may include
errors such as command line too long
501 = Syntax error in parameters or arguments
502 = Command not implemented
503 = Bad sequence of commands
504 = Command not implemented for that parameter
530 = User not logged in
532 = Need account for storing files
550 = Requested action not taken, file unavailable (e.g., file not
found, no access)
552 = Requested file action aborted, storage allocation
exceeded
553 = Requested action not taken, illegal file name
1032 = Password authentication failed
SFTP only.
1102 = Unrecognized remote SSH version string format
SFTP only.
1103 = SFTP command failed
SFTP only.
1105 = Already connecting, close the current connection first
SFTP only.
1120 = Connection dropped by remote host
SFTP only.

Parameters for HTTP protocol error |Top|

Parameters for SMTP protocol error |Top|

Name Type Description
SMTP cause Integer SMTP cause
1 = Timeout
2 = Invalid remote address
5 = Invalid local file
102 = Invalid remote address
421 = Service not available, closing transmission channel
450 = Requested mail action not taken: mailbox unavailable
451 = Requested action aborted: local error in processing
452 = Requested action not taken: insufficient system storage
500 = Syntax error, command unrecognized
501 = Syntax error in parameters or arguments
502 = Command not implemented
503 = Bad sequence of commands
504 = Command parameter not implemented
535 = Incorrect password or account name
550 = Requested action not taken: mailbox unavailable
551 = User not local
552 = Requested mail action aborted: exceeded storage
allocation
553 = Requested action not taken: mailbox name not allowed
554 = Transaction failed
1120 = Connection dropped by remote host

Parameters for POP3 protocol error |Top|

Name Type Description
POP3 cause Integer POP3 cause
1 = Timeout
2 = Invalid remote address
6 = Incorrect index
118 = Firewall error
172 = Error communicating with server
174 = Busy executing current method
1120 = Connection dropped by remote host

Parameters for WAP and MMS protocol error |Top|

Name Type Description
WAP and MMS cause Integer WAP and MMS cause
1 = Timeout
2 = Invalid remote address
4 = Invalid remote file
5 = Invalid local file
50 = Unknown
Only used with the MMS protocol.
51 = Protocol error
Only used with the MMS protocol.
52 = Invalid TID
Only used with the MMS protocol.
53 = Not implemented class 2
Only used with the MMS protocol.
54 = Not implemented SAR
Only used with the MMS protocol.
55 = Not implemented user acknowledgement
Only used with the MMS protocol.
56 = WTP version zero
Only used with the MMS protocol.
57 = Capacity temporarily exceeded
Only used with the MMS protocol.
58 = No response
Only used with the MMS protocol.
59 = Message too large
Only used with the MMS protocol.
100 = Continue
101 = Switching Protocols
129 = Unspecified
Only used with the MMS protocol.
130 = Service denied
Only used with the MMS protocol.
131 = Message format corrupt
Only used with the MMS protocol.
132 = Sending address unresolved
Only used with the MMS protocol.
133 = Message not found
Only used with the MMS protocol.
134 = Network problem
Only used with the MMS protocol.
135 = Content not accepted
Only used with the MMS protocol.
136 = Unsupported message
Only used with the MMS protocol.
200 = OK, success
201 = Created
202 = Accepted
203 = Non-Authoritative information
204 = No content
205 = Reset content
206 = Partial content
300 = Multiple choices
301 = Moved permanently
302 = Moved temporarily
303 = See other
304 = Not modified
305 = Use proxy
306 = Reserved
307 = Temporary redirect
400 = Bad request - server could not understand request
401 = Unauthorized
402 = Payment required
403 = Forbidden - operation is understood but refused
404 = Not found
405 = Method not allowed
406 = Not acceptable
407 = Proxy authentication required
408 = Request timeout
409 = Conflict
410 = Gone
411 = Length required
412 = Precondition failed
413 = Request entity too large
414 = Request-URI too large
415 = Unsupported media type
416 = Requested range not satisfiable
417 = Expectation failed
500 = Internal server error
501 = Not implemented
502 = Bad gateway
503 = Service unavailable
504 = Gateway timeout
505 = HTTP version not supported

Parameters for streaming protocol error |Top|

Name Type Description
Streaming cause Integer Streaming cause
1 = Timeout
2 = Invalid remote address
4 = Invalid remote file
64413 = Audio stream config not available
64414 = Video stream config not available
64415 = Dx add filter failed
64416 = Com create failed
64417 = Audio cap create failed
64418 = Video cap create failed
64419 = Audio device lost
64420 = Video device lost
64421 = Find filter failed
64422 = Insert filter failed
64423 = No audio track present
64424 = No video track present
64425 = User authentication failed
64426 = Media not seekable
64427 = Media handler create failed
64428 = Streaming error
64429 = Get image failed
64430 = Extract buffering status failed
64431 = Audio conversion failed
64432 = Video conversion failed
64433 = Convert to pcm failed
64434 = Wave writer save failed
64435 = Mixer init failed
64436 = Get image bits failed
64437 = Get bitmap info failed
64438 = Get save video sample filename failed
64439 = Get audio sample filename failed
64440 = Get last video image failed
64441 = Get media info failed
64442 = Get parent hwnd failed
64443 = Tick counter failed
64444 = Destroy media handler failed
64445 = Init dll failed
64446 = Media wrapper library not available
64447 = Wrapper library not loaded
64448 = Lib proc not found
64449 = Unknown media action
64450 = Failed to reload media file
64451 = Failed to seek media file
64452 = Failed to pause media file
64453 = Failed to stop media file
64454 = Failed to play media file
64455 = Video writer init failed
64456 = Audio writer init failed
64457 = Video analyzer init failed
64458 = Audio analyzer init failed
64459 = Player not available
64460 = Media wrapper create failed
64461 = Get pin failed
64462 = Render output failed
64463 = Add key provider failed
64464 = Set media type failed
64465 = Get shell command failed
64466 = Dx filter pin access failed
64467 = Launch web browser failed
64468 = Monitor license acquisition failed
64469 = Failed to acquire license
64470 = Drm authentication failed
64471 = Open movie file failed
64472 = New movie failed
64473 = Get dib failed
64474 = Empty bitmap
64475 = Unknown media type
64476 = New gworld failed
64477 = New call back failed
64478 = New movie controller failed
64479 = Audio player create failed
64480 = Player init failed
64481 = Create player failed
64482 = Create client engine failed
64483 = Incomplete action in progress
64484 = No media loaded
64485 = Load media file failed
64486 = Unsupported media type
64487 = Unsupported writer format
64488 = Handler specific
64489 = High resolution counter unavailable
64490 = Mixer select recorder failed
64491 = Mixer get control detail failed
64492 = Unrecognized mixer component type
64493 = Empty mixer item
64494 = Mixer get line controls failed
64495 = Mixer get line info failed
64496 = Mixer close failed
64497 = Mixer get caps failed
64498 = Mixer open failed
64499 = Wave in start failed
64500 = Wave in stop failed
64501 = Wave in add buffer failed
64502 = Wave in prepare header failed
64503 = Wave in open failed
64504 = Mono line index read failed
64505 = Stereo line index read failed
64506 = Mixer index read failed
64507 = Invalid media handler
64508 = Avi write frame failed
64509 = Avi stream format failed
64510 = Avi stream create failed
64511 = Avi file create failed
65016 = Video image req failed
65017 = Video alignment out of range
65018 = Video alignment out of bound
65019 = Video analyzer pause failed
65020 = Video analyzer stop failed
65021 = Video analyzer start failed
65022 = Video analyzer load failed
65023 = Video analysis failed
65246 = Duration diff
65247 = Duration too diff
65248 = Duration too long
65249 = Incompatible sampling rate
65250 = Sut high sampling rate
65251 = Ref duration too short
65252 = Sut duration too short
65253 = Data end not found
65254 = Data begin not found
65255 = Get data buffer failed
65256 = Unmatched sample width
65257 = Corr too low
65258 = Upsampling failed
65259 = Merge data failed
65260 = Unsupport sampling rate
65261 = Unsupport sample width
65262 = Unsupport channel count
65263 = Unmatched channel count
65264 = Unmatched sampling rate
65265 = Level too diff
65266 = Replace data chunk failed
65267 = Split data failed
65268 = Fft failed
65269 = Audio analyzer pause failed
65270 = Audio analyzer stop failed
65271 = Audio analyzer start failed
65272 = Audio analyzer load failed
65273 = Audio analysis failed
65274 = Invalid audio sample width
65275 = Uninit audio mean mos table
65276 = Resampling failed
65277 = Access pass end of data
65278 = Fixed bit rate only
65279 = Invalid audio codec type
65489 = Unlock application failed
65490 = No file loaded
65491 = Empty file
65492 = Invalid sample width
65493 = Invalid channel count
65494 = Invalid data format
65495 = Invalid chunk data
65496 = Invalid riff header
65497 = Unexpected eof
65498 = Invalid analyzer type
65499 = Mixer recorder volume unavailable
65500 = No mixer available
65501 = Invalid command
65502 = Command parser error
65503 = Invalid command type
65504 = Analysis result create failed
65505 = Analyzer compute metrics failed
65506 = Analyzer prepare attribute failed
65507 = Analyzer create failed
65508 = Analyzer load failed
65509 = Analyzer pause failed
65510 = Analyzer stop failed
65511 = Analyzer start failed
65512 = Analyzer destroy failed
65513 = Analyzer library not available
65514 = Analyzer library not loaded
65515 = Open dib failed
65516 = Create window failed
65517 = Draw dib failed
65518 = Register wnd class failed
65519 = Dll interface specific
65520 = Init com failed
65521 = Registry query failed
65522 = Query interface failed
65523 = Generate temp file failed
65524 = Thread create failed
65525 = Wait timeout
65526 = Unsupported feature
65527 = Create process failed
65528 = File not exist
65529 = File open failed
65530 = Registry open failed
65531 = Invalid parameter
65532 = Uninitialized object
65533 = User interrupted
65534 = Out of memory
65535 = Unknown error
262148 = Invalid operation
262149 = Invalid version
262150 = Invalid revision
262151 = Not initialized
262152 = Doc missing
262153 = Unexpected
262156 = Incomplete
262157 = Buffer too small
262158 = Unsupported video
262159 = Unsupported audio
262160 = Invalid bandwidth
262161 = No renderer
262162 = Element not found
262163 = No class
262164 = Class no aggregation
262165 = Not licensed
262166 = No file system
262167 = Request upgrade
262168 = Awaiting license
262208 = Buffering
262209 = Paused
262210 = No data
262211 = Net socket invalid
262212 = Net connect
262213 = Bind
262214 = Socket create
262215 = Invalid host
262216 = Net read
262217 = Net write
262218 = Net UDP
262219 = Retry
262220 = Server timeout
262221 = Server disconnected
262222 = Would block
262223 = General nonet
262224 = Block canceled
262225 = Multicast join
262226 = General multicast
262227 = Multicast UDP
262228 = At interrupt
262229 = Msg too large
262230 = Net TCP
262231 = Try auto config
262232 = Not enough bandwidth
262233 = HTTP connect
262234 = Port in use
262235 = Load test not supported
262272 = At end
262273 = Invalid file
262274 = Invalid path
262275 = Record
262276 = Record write
262277 = Temp file
262278 = Already open
262279 = Seek pending
262280 = Cancelled
262281 = File not found
262282 = Write error
262283 = File exists
262285 = Advise prefer linear
262286 = Parse error
262336 = Bad server
262337 = Advanced server
262338 = Old server
262339 = Redirection
262340 = Server alert
262341 = Proxy
262342 = Proxy response
262343 = Advanced proxy
262344 = Old proxy
262345 = Invalid protocol
262346 = Invalid url option
262347 = Invalid url host
262348 = Invalid url path
262349 = HTTP content not found
262350 = Not authorized
262351 = Unexpected msg
262352 = Bad transport
262353 = No session id
262354 = Proxy dnr
262355 = Proxy net connect
262400 = Audio driver
262401 = Late packet
262402 = Overlapped packet
262403 = Out of order packet
262404 = Non contiguous packet
262464 = Open not processed
262528 = Expired
262593 = Could not init core
262594 = Perfectplay not supported
262595 = No live perfectplay
262596 = Perfectplay not allowed
262597 = No codecs
262598 = Slow machine
262599 = Force perfectplay
262600 = Invalid HTTP proxy host
262601 = Invalid metafile
262602 = Browser launch
262603 = View source noclip
262604 = View source dissabled
262656 = Decoder inited
262657 = Decoder not found
262658 = Decoder invalid
262659 = Decoder type mismatch
262660 = Decoder init failed
262661 = Decoder not inited
262662 = Decoder decompress
262663 = Obsolete version
262720 = Encoder file too small
262721 = Encoder unknown file
262722 = Encoder bad channels
262723 = Encoder bad sampsize
262724 = Encoder bad samprate
262725 = Encoder invalid
262726 = Encoder no output file
262727 = Encoder no input file
262728 = Encoder no output permissions
262729 = Encoder bad file type
262730 = Encoder invalid video
262731 = Encoder invalid audio
262732 = Encoder no video capture
262733 = Encoder invalid video capture
262734 = Encoder no audio capture
262735 = Encoder invalid audio capture
262736 = Encoder too slow for live
262737 = Encoder engine not initialized
262738 = Encoder coDecoder not found
262739 = Encoder coDecoder not initialized
262740 = Encoder invalid input dimensions
262741 = Encoder message ignored
262742 = Encoder no settings
262743 = Encoder no output types
262744 = Encoder improper state
262745 = Encoder invalid server
262746 = Encoder invalid temp path
262747 = Encoder merge fail
262748 = Bin data not found
262749 = Bin end of data
262750 = Bin data purged
262751 = Bin full
262752 = Bin offset past end
262753 = Encoder no encoded data
262754 = Encoder invalid dll
262755 = Not indexable
262756 = Encoder no browser
262757 = Encoder no file to server
262758 = Encoder insufficient disk space
262785 = Prop not found
262786 = Prop not composite
262787 = Prop duplicate
262788 = Prop type mismatch
262789 = Prop active
262790 = Prop inactive
262848 = Ppv no user
262849 = Ppv guid read only
262850 = Ppv guid collision
262851 = Register guid exists
262852 = Ppv authorization failed
262853 = Ppv old player
262854 = Ppv account locked
262856 = Ppv dbaccess error
262857 = Ppv user already exists
262914 = Resource not found
262915 = Resource close file first
262916 = Resource nodata
262917 = Resource badfile
262918 = Resource partial copy
262976 = Upg auth failed
262977 = Upg cert auth failed
262978 = Upg cert expired
262979 = Upg cert revoked
262980 = Upg rup bad
263105 = Rmt usage error
263106 = Rmt invalid end time
263107 = Rmt missing input file
263108 = Rmt missing output file
263109 = Rmt input equals output file
263110 = Rmt unsupported audio version
263111 = Rmt different audio
263112 = Rmt different video
263113 = Rmt paste missing stream
263114 = Rmt end of stream
263115 = Rmt image map parse error
263116 = Rmt invalid image map file
263117 = Rmt event parse error
263118 = Rmt invalid event file
263119 = Rmt invalid output file
263120 = Rmt invalid duration
263121 = Rmt no dump files
263122 = Rmt no event dump file
263123 = Rmt no imap dump file
263124 = Rmt no data
263125 = Rmt empty stream
263126 = Rmt read only file
263127 = Rmt paste missing audio stream
263128 = Rmt paste missing video stream
263168 = Autocfg success
263169 = Autocfg failed
263170 = Autocfg abort
266176 = Invalid inter leaver
266177 = Bad format
266178 = Chunk missing
266179 = Invalid stream
266180 = Dnr
266181 = Open driver
266182 = Upgrade
266183 = Notification
266184 = Not notified
266185 = Stopped
266186 = Closed
266187 = Invalid wav file
266188 = No seek

Parameters for HTTP browsing protocol error |Top|

Name Type Description
HTTP browsing cause Integer HTTP browsing cause
1 = Timeout
2 = Invalid remote address
4 = Invalid remote file
5 = Invalid local file
100 = Continue
101 = Switching protocols
102 = Processing
200 = OK, success
201 = Created
202 = Accepted
203 = Non-authoritative information
204 = No content
205 = Reset content
206 = Partial content
208 = Already reported
300 = Multiple choices
301 = Moved permanently
302 = Found
In some cases this can be same as moved temporarily.
303 = See other
304 = Not modified
305 = Use proxy
306 = Reserved
307 = Temporary redirect
308 = Permanent redirect
400 = Bad request
Server could not understand request.
401 = Unauthorized
402 = Payment required
403 = Forbidden
Operation is understood but refused.
404 = Not Found
405 = Method not allowed
406 = Not acceptable
407 = Proxy authentication required
408 = Request timeout
409 = Conflict
410 = Gone
411 = Length Required
412 = Precondition failed
413 = Request entity too large
414 = Request-URI too long
415 = Unsupported media type
416 = Requested range not satisfiable
417 = Expectation failed
422 = Unprocessable entity
423 = Locked
424 = Failed dependency
426 = Upgrade required
428 = Precondition required
429 = Too many requests
431 = Request header fields too large
500 = Internal server error
501 = Not implemented
502 = Bad gateway
503 = Service unavailable
504 = Gateway timeout
505 = HTTP version not supported
1120 = Connection dropped by remote host
2002 = Failed
2003 = Aborted
2004 = Invalid argument
2005 = Invalid handle
2006 = File not found
2007 = Timed out
2008 = File too big
2009 = Unexpected error
2010 = Access denied
2011 = Not implemented
2100 = Connection closed
2101 = Connection reset
2102 = Connection refused
2103 = Connection aborted
2104 = Connection failed
2105 = Name not resolved
2106 = Internet disconnected
2107 = SSL protocol error
2108 = Invalid address
2109 = Address unreachable
2110 = SSL authentication certification needed
2111 = Tunnel connection failed
2112 = No SSL versions enabled
2113 = SSL version or cipher mismatch
2114 = SSL renegotiation requested
2115 = Unsupported proxy authentication method
2116 = SSL renegotiation error
2117 = Bad or missing SSL client certificate
2118 = Connection timeout
2119 = Too many pending DNS resolves
2120 = Failed to connect SOCKS proxy
2121 = SOCKS proxy server failed to establish connection to
the target host
2122 = The request to negotiate an alternate protocol failed
2123 = The peer sent an SSL no_renegotiation alert message
2124 = Winsock reported unexpected written bytes
2125 = SSL decompression failure
2126 = SSL bad record MAC alert
2127 = The proxy requested authentication for tunnel
establishment
2128 = A known TLS strict server didn't offer the renegotiation
extension
2129 = The SSL server attempted to use a weak ephemeral
Diffie-Hellman key
2130 = Could not connect to proxy server
2131 = Snap start NPN misprection
2132 = ESET anti-virus SSL interception
2133 = Preconnect socket limit reached
2134 = The permission to use the SSL client certificate's private
key was denied
2135 = The SSL client certificate has no private key
2136 = The certificate presented by the HTTPS Proxy was
invalid
2137 = An error occurred when trying to do a name resolution
(DNS)
2138 = Permission to access the network was denied
2139 = The request throttler module cancelled this request to
avoid DDOS
2140 = SSL tunnel connection through HTTPS proxy failed
2200 = SSL certification invalid common name
2201 = SSL certification invalid date
2202 = SSL certification invalid authority
2203 = SSL certification contains errors
2204 = SSL certification has no revocation mechanism
2205 = Unable to the revocation for SSL certification
2206 = SSL certification revoked
2207 = SSL certification is invalid
2208 = SSL certification end
2300 = Invalid URL
2301 = Disallowed URL scheme
2302 = Unknown URL scheme
2310 = Too many redirects
2311 = Unsafe redirect
2312 = Unsafe port
2320 = Invalid response
2321 = Invalid chunked encoding
2322 = Method not supported
2323 = Unexpected proxy authentication
2324 = Empty response
2325 = Response headers are too big
2400 = Cache miss
2501 = Insecure response

Parameters for ICMP ping protocol error |Top|

Name Type Description
ICMP ping cause Integer ICMP ping cause
2 = Invalid remote address
119 = Message too short

Parameters for IPerf protocol error |Top|

Name Type Description
Data transfer cause Integer Data transfer cause
1 = Timeout
2 = Invalid remote address
4 = Invalid remote file.

Parameters for trace route protocol error |Top|

Name Type Description
Trace route cause Integer Trace route cause
1 = Timeout
2 = Invalid remote address
119 = Message too short
131 = Request queue is full
132 = Message for unknown request
159 = Invalid hop index (out of range)
312 = Busy performing current trace

Parameters for IMAP protocol error |Top|

Name Type Description
IMAP cause Integer IMAP cause
1 = Timeout
2 = Invalid remote address
6 = Incorrect index
116 = RemotePort cannot be zero. Please specify a valid
service port number
118 = Firewall error
270 = Cannot load specified security library
271 = Cannot open certificate store
272 = Cannot find specified certificate
273 = Cannot acquire security credentials
274 = Cannot find certificate chain
275 = Cannot verify certificate chain
276 = Error during handshake
280 = Error verifying certificate
281 = Could not find client certificate
282 = Could not find server certificate
283 = Error encrypting data
284 = Error decrypting data
315 = Invalid argument
317 = Unknown content encoding
1117 = You need to connect first.
1120 = Connection dropped by remote host

Parameters for Facebook protocol error |Top|

Name Type Description
Facebook cause Integer Facebook cause
1 = Timeout
2 = Invalid remote address
4 = Invalid remote file
5 = Invalid local file
100 = Continue
101 = Switching protocols
102 = Processing
200 = OK, success
201 = Created
202 = Accepted
203 = Non-authoritative information
204 = No content
205 = Reset content
206 = Partial content
208 = Already reported
300 = Multiple choices
301 = Moved permanently
302 = Found
In some cases this can be same as moved temporarily.
303 = See other
304 = Not modified
305 = Use proxy
306 = Reserved
307 = Temporary redirect
308 = Permanent redirect
400 = Bad request
Server could not understand request.
401 = Unauthorized
402 = Payment required
403 = Forbidden
Operation is understood but refused.
404 = Not Found
405 = Method not allowed
406 = Not acceptable
407 = Proxy authentication required
408 = Request timeout
409 = Conflict
410 = Gone
411 = Length Required
412 = Precondition failed
413 = Request entity too large
414 = Request-URI too long
415 = Unsupported media type
416 = Requested range not satisfiable
417 = Expectation failed
422 = Unprocessable entity
423 = Locked
424 = Failed dependency
426 = Upgrade required
428 = Precondition required
429 = Too many requests
431 = Request header fields too large
500 = Internal server error
501 = Not implemented
502 = Bad gateway
503 = Service unavailable
504 = Gateway timeout
505 = HTTP version not supported
1120 = Connection dropped by remote host
10231 = Unbalanced element tag
10232 = Invalid JSON markup
10233 = Invalid XPath
10234 = DOM tree unavailable
20000 = Invalid access token
20001 = An unknown error occurred
20002 = Service temporarily unavailable
20003 = Unknown method
20004 = Application request limit reached
20009 = User is performing too many actions
20011 = This method is deprecated
20013 = FQL query error
20015 = This method call must be signed with the application
secret
20017 = User request limit reached
20100 = Invalid parameter
20101 = Invalid API key
20102 = Session key invalid or no longer valid
20105 = Too many parameters
20110 = Invalid user id
20113 = Invalid email
20200 = Permissions error
20210 = User not visible
20211 = Application has no developers
20250 = Updating status requires the extended permission
status_update
20321 = Album is full
20324 = Missing or invalid image file
20325 = Too many unapproved photos pending
20340 = Feed publication request limit reached
20341 = Feed action request limit reached
20343 = The story title is too long
20345 = Feed story title rendered as blank
20346 = Feed story body is too long
20347 = Feed story photo could not be accessed or proxied
20348 = Feed story photo link invalid
20362 = Feed story body_data argument was not a valid JSON-
encoded array
20370 = The email address is not valid
20371 = The email address belongs to an existing account
20400 = Invalid email address
20401 = Invalid username or password
20402 = Invalid application auth sig
20403 = Invalid timestamp for authentication
20450 = Session key specified has passed its expiration time
20451 = Session key specified cannot be used to call this
method
20452 = Invalid session key
20453 = A session key is required for calling this method
20454 = A session key must be specified when request is
signed with a session secret
20455 = A session secret is not permitted to be used with this
type of session key
20500 = Message contains banned content
20501 = Missing message body
20502 = Message is too long
20503 = User has sent too many messages
20504 = Invalid reply thread id
20505 = Invalid message recipient
20506 = Duplicate status message
20803 = Invalid user id

Parameters for Twitter protocol error |Top|

Name Type Description
Twitter cause Integer Twitter cause
1 = Timeout
200 = OK, success
20032 = Could not authenticate
Call could not be completed as dialed.
20034 = Page does not exist
Page does not exist. Corresponds with an HTTP 404 - the
specified resource was not found.
20064 = Account suspended
Account is suspended and is not permitted to access this
feature.
20068 = Depracated API
The Twitter REST API v1 is no longer active. Please
migrate to API v1.1.
20088 = Rate limit exceeded
The request limit for this resource has been reached for the
current rate limit window.
20089 = Access token incorrect or expired
Use API v1.1.
20092 = SSL is required
Only SSL connections are allowed in the API, you should
update your request to a secure connection.
20130 = Service unavailable
Corresponds with an HTTP 503 - Twitter is temporarily over
capacity.
20131 = Internal server error
Corresponds with an HTTP 500 - An unknown internal error
occurred.
20135 = Could not authenticate
20161 = Unable to follow more people at this time
20179 = Not authorized to see this status
20185 = User is over daily status update limit
20187 = Status is a duplicate
20189 = Error creating status
20215 = Bad authentication data
Typically sent with 1.1 responses with HTTP code 400.
20226 = Spam
This request looks like it might be automated. To protect
users from spam and other malicious activity, can not
complete this action right now.
20231 = User must verify login
20251 = This endpoint has been retired
Corresponds to a HTTP request to a retired URL.
20261 = Application cannot perform write actions

Parameters for Instagram protocol error |Top|

Name Type Description
Instagram cause Integer Instagram cause
1 = Timeout
2 = Invalid remote address
4 = Invalid remote file
5 = Invalid local file
100 = Continue
101 = Switching protocols
102 = Processing
200 = OK, success
201 = Created
202 = Accepted
203 = Non-authoritative information
204 = No content
205 = Reset content
206 = Partial content
208 = Already reported
300 = Multiple choices
301 = Moved permanently
302 = Found
In some cases this can be same as moved temporarily.
303 = See other
304 = Not modified
305 = Use proxy
306 = Reserved
307 = Temporary redirect
308 = Permanent redirect
400 = Bad request
Server could not understand request.
401 = Unauthorized
402 = Payment required
403 = Forbidden
Operation is understood but refused.
404 = Not Found
405 = Method not allowed
406 = Not acceptable
407 = Proxy authentication required
408 = Request timeout
409 = Conflict
410 = Gone
411 = Length Required
412 = Precondition failed
413 = Request entity too large
414 = Request-URI too long
415 = Unsupported media type
416 = Requested range not satisfiable
417 = Expectation failed
422 = Unprocessable entity
423 = Locked
424 = Failed dependency
426 = Upgrade required
428 = Precondition required
429 = Too many requests
431 = Request header fields too large
500 = Internal server error
501 = Not implemented
502 = Bad gateway
503 = Service unavailable
504 = Gateway timeout
505 = HTTP version not supported
1120 = Connection dropped by remote host
20001 = Image download failed
20002 = Invalid user
20400 = Invalid user or Access Token
20429 = The maximum number of requests per hour has been
exceeded
20503 = too many requests

Parameters for LinkedIn protocol error |Top|

Name Type Description
LinkedIn cause Integer LinkedIn cause
1 = Timeout
2 = Invalid remote address
4 = Invalid remote file
5 = Invalid local file
100 = Continue
101 = Switching protocols
102 = Processing
200 = OK, success
201 = Created
202 = Accepted
203 = Non-authoritative information
204 = No content
205 = Reset content
206 = Partial content
208 = Already reported
300 = Multiple choices
301 = Moved permanently
302 = Found
In some cases this can be same as moved temporarily.
303 = See other
304 = Not modified
305 = Use proxy
306 = Reserved
307 = Temporary redirect
308 = Permanent redirect
400 = Bad request
Server could not understand request.
401 = Unauthorized
402 = Payment required
403 = Forbidden
Operation is understood but refused.
404 = Not Found
405 = Method not allowed
406 = Not acceptable
407 = Proxy authentication required
408 = Request timeout
409 = Conflict
410 = Gone
411 = Length Required
412 = Precondition failed
413 = Request entity too large
414 = Request-URI too long
415 = Unsupported media type
416 = Requested range not satisfiable
417 = Expectation failed
422 = Unprocessable entity
423 = Locked
424 = Failed dependency
426 = Upgrade required
428 = Precondition required
429 = Too many requests
431 = Request header fields too large
500 = Internal server error
501 = Not implemented
502 = Bad gateway
503 = Service unavailable
504 = Gateway timeout
505 = HTTP version not supported
1120 = Connection dropped by remote host
20001 = Image download failed
20003 = JSON error

Parameters for Youtube PEVQ-S protocol error |Top|

Name Type Description
PEVQ-S cause Integer PEVQ-S cause
1 = Timeout
1 = Timeout
2 = Invalid remote address
4 = Invalid remote file
5 = Invalid local file
12 = Invalid PEVQS handle
13 = Handle was already setup or used in another
measurement
14 = Error with license
15 = Error with license info generation
16 = Out of Memory
17 = Packet drop in packet capture detected
18 = Network error
19 = Error with packet source
20 = Video is transported over HTTPS
21 = Could not open database
22 = Database does not match measured video stream
23 = Database version does not match PEVQ-S probe version
24 = Unspecific SQL error
25 = Could not open or parse SSL log file
26 = Error in player simulation
27 = Player signaled error
28 = The player end message is missing but end of video was
detected
29 = General error
100 = Continue
101 = Switching protocols
102 = Processing
200 = OK, success
201 = Created
202 = Accepted
203 = Non-authoritative information
204 = No content
205 = Reset content
206 = Partial content
208 = Already reported
300 = Multiple choices
301 = Moved permanently
302 = Found
In some cases this can be same as moved temporarily.
303 = See other
304 = Not modified
305 = Use proxy
306 = Reserved
307 = Temporary redirect
308 = Permanent redirect
400 = Bad request
Server could not understand request.
401 = Unauthorized
402 = Payment required
403 = Forbidden
Operation is understood but refused.
404 = Not Found
405 = Method not allowed
406 = Not acceptable
407 = Proxy authentication required
408 = Request timeout
409 = Conflict
410 = Gone
411 = Length Required
412 = Precondition failed
413 = Request entity too large
414 = Request-URI too long
415 = Unsupported media type
416 = Requested range not satisfiable
417 = Expectation failed
422 = Unprocessable entity
423 = Locked
424 = Failed dependency
426 = Upgrade required
428 = Precondition required
429 = Too many requests
431 = Request header fields too large
500 = Internal server error
501 = Not implemented
502 = Bad gateway
503 = Service unavailable
504 = Gateway timeout
505 = HTTP version not supported
1120 = Connection dropped by remote host
2002 = Failed
2003 = Aborted
2004 = Invalid argument
2005 = Invalid handle
2006 = File not found
2007 = Timed out
2008 = File too big
2009 = Unexpected error
2010 = Access denied
2011 = Not implemented
2100 = Connection closed
2101 = Connection reset
2102 = Connection refused
2103 = Connection aborted
2104 = Connection failed
2105 = Name not resolved
2106 = Internet disconnected
2107 = SSL protocol error
2108 = Invalid address
2109 = Address unreachable
2110 = SSL authentication certification needed
2111 = Tunnel connection failed
2112 = No SSL versions enabled
2113 = SSL version or cipher mismatch
2114 = SSL renegotiation requested
2115 = Unsupported proxy authentication method
2116 = SSL renegotiation error
2117 = Bad or missing SSL client certificate
2118 = Connection timeout
2119 = Too many pending DNS resolves
2120 = Failed to connect SOCKS proxy
2121 = SOCKS proxy server failed to establish connection to
the target host
2122 = The request to negotiate an alternate protocol failed
2123 = The peer sent an SSL no_renegotiation alert message
2124 = Winsock reported unexpected written bytes
2125 = SSL decompression failure
2126 = SSL bad record MAC alert
2127 = The proxy requested authentication for tunnel
establishment
2128 = A known TLS strict server didn't offer the renegotiation
extension
2129 = The SSL server attempted to use a weak ephemeral
Diffie-Hellman key
2130 = Could not connect to proxy server
2131 = Snap start NPN misprection
2132 = ESET anti-virus SSL interception
2133 = Preconnect socket limit reached
2134 = The permission to use the SSL client certificate's private
key was denied
2135 = The SSL client certificate has no private key
2136 = The certificate presented by the HTTPS Proxy was
invalid
2137 = An error occurred when trying to do a name resolution
(DNS)
2138 = Permission to access the network was denied
2139 = The request throttler module cancelled this request to
avoid DDOS
2140 = SSL tunnel connection through HTTPS proxy failed
2200 = SSL certification invalid common name
2201 = SSL certification invalid date
2202 = SSL certification invalid authority
2203 = SSL certification contains errors
2204 = SSL certification has no revocation mechanism
2205 = Unable to the revocation for SSL certification
2206 = SSL certification revoked
2207 = SSL certification is invalid
2208 = SSL certification end
2300 = Invalid URL
2301 = Disallowed URL scheme
2302 = Unknown URL scheme
2310 = Too many redirects
2311 = Unsafe redirect
2312 = Unsafe port
2320 = Invalid response
2321 = Invalid chunked encoding
2322 = Method not supported
2323 = Unexpected proxy authentication
2324 = Empty response
2325 = Response headers are too big
2400 = Cache miss
2501 = Insecure response

Parameters for Dropbox protocol error |Top|

Name Type Description
Dropbox cause Integer Dropbox cause
4 = Invalid remote file
5 = Invalid local file
421 = Service not available
425 = Cannot open connection

Parameters for Speedtest |Top|

Name Type Description
Reserved Integer Reserved
Always n/a.

Parameters for mScore |Top|

Name Type Description
mScore error code Integer mScore error code
1 = Timeout
2 = Invalid remote address
401 = Unauthorized
404 = Not found
503 = Service unavailable
509 = Bandwidth limit exceeded
2107 = SSL protocol error
20001 = Connection lost during download
20002 = Connection lost during upload
20003 = mScore result receiving failed

Parameters for Netflix |Top|

Name Type Description
Reserved Integer Reserved
Currently this is always n/a.

Parameters for WhatsApp |Top|

Name Type Description
Reserved Integer Reserved
Currently this is always n/a.

Parameters for test system failure |Top|

Name Type Description
Reserved Integer Reserved
Always n/a.

Data disconnect (DAD)

Event ID DAD
Cellular systems All
Record state Data connection state
Description Recorded when the connection to the server is disconnected. For TCP-based protocols
this means that the socket connection has been terminated. The measurement event
ends the data connection state.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous
|Parameters |Parameters for normal data disconnect |Parameters for socket error |Parameters for Nemo protocol error |Parameters for FTP and SFTP
protocol error |Parameters for HTTP protocol error |Parameters for SMTP protocol error |Parameters for POP3 protocol error |Parameters for WAP and
MMS protocol error |Parameters for streaming protocol error |Parameters for HTTP browsing protocol error |Parameters for ICMP ping protocol error
|Parameters for IPerf protocol error |Parameters for trace route protocol error |Parameters for IMAP protocol error |Parameters for Facebook protocol error
|Parameters for Twitter protocol error |Parameters for Instagram protocol error |Parameters for LinkedIn protocol error |Parameters for Youtube PEVQ-S
protocol error |Parameters for Dropbox protocol error |Parameters for Speedtest |Parameters for mScore |Parameters for Netflix |Parameters for
WhatsApp |Parameters for test system failure |

Parameters for normal data disconnect |Top|

Name Type Description
Reserved Integer Reserved
Always n/a.

Parameters for socket error |Top|

Name Type Description
Socket cause Integer Socket cause
10004 = A blocking operation was interrupted by a call to
WSACancelBlockingCall.
10009 = The file handle supplied is not valid.
10013 = An attempt was made to access a socket in a way
forbidden by its access permissions.
10014 = The system detected an invalid pointer address in
attempting to use a pointer argument in a call.
10022 = An invalid argument was supplied.
10024 = Too many open sockets.
10035 = A non-blocking socket operation could not be
completed immediately.
10036 = A blocking operation is currently executing.
10037 = An operation was attempted on a non-blocking socket
that already had an operation in progress.
10038 = An operation was attempted on something that is not a
socket.
10039 = A required address was omitted from an operation on a
socket.
10040 = A message sent on a datagram socket was larger than
the internal message buffer or some other network limit, or the
buffer used to receive a datagram into was smaller than the
datagram itself.
10041 = A protocol was specified in the socket function call that
does not support the semantics of the socket type requested.
10042 = An unknown, invalid, or unsupported option or level
was specified in a getsockopt or setsockopt call.
10043 = The requested protocol has not been configured into
the system, or no implementation for it exists.
10044 = The support for the specified socket type does not
exist in this address family.
10045 = The attempted operation is not supported for the type
of object referenced.
10046 = The protocol family has not been configured into the
system or no implementation for it exists.
10047 = An address incompatible with the requested protocol
was used.
10048 = Only one usage of each socket address
(protocol/network address/port) is normally permitted.
10049 = The requested address is not valid in its context.
10050 = A socket operation encountered a dead network.
10051 = A socket operation was attempted to an unreachable
network.
10052 = The connection has been broken due to keep-alive
activity detecting a failure while the operation was in progress.
10053 = An established connection was aborted by the
software in your host machine.
10054 = An existing connection was forcibly closed by the
remote host.
10055 = An operation on a socket could not be performed
because the system lacked sufficient buffer space or because a
queue was full.
10056 = A connect request was made on an already connected
socket.
10057 = A request to send or receive data was disallowed
because the socket is not connected and (when sending on a
datagram socket using a sendto call) no address was supplied.
10058 = A request to send or receive data was disallowed
because the socket had already been shut down in that
direction with a previous shutdown call.
10059 = Too many references to some kernel object.
10060 = A connection attempt failed because the connected
party did not properly respond after a period of time, or
established connection failed because connected host has
failed to respond.
10061 = No connection could be made because the target
machine actively refused it.
10062 = Cannot translate name.
10063 = Name component or name was too long.
10064 = A socket operation failed because the destination host
was down.
10065 = A socket operation was attempted to an unreachable
host.
10066 = Cannot remove a directory that is not empty.
10067 = A Windows Sockets implementation may have a limit
on the number of applications that may use it simultaneously.
10068 = Ran out of quota.
10069 = Ran out of disk quota.
10070 = File handle reference is no longer available.
10071 = Item is not available locally.
10091 = WSAStartup cannot function at this time because the
underlying system it uses to provide network services is
currently unavailable.
10092 = The Windows Sockets version requested is not
supported.
10093 = Either the application has not called WSAStartup, or
WSAStartup failed.
10101 = Returned by WSARecv or WSARecvFrom to indicate
the remote party has initiated a graceful shutdown sequence.
10102 = No more results can be returned by
WSALookupServiceNext.
10103 = A call to WSALookupServiceEnd was made while this
call was still processing. The call has been canceled.
10104 = The procedure call table is invalid.
10105 = The requested service provider is invalid.
10106 = The requested service provider could not be loaded or
initialized.
10107 = A system call that should never fail has failed.
10108 = No such service is known. The service cannot be
found in the specified name space.
10109 = The specified class was not found.
10110 = No more results can be returned by
WSALookupServiceNext.
10111 = A call to WSALookupServiceEnd was made while this
call was still processing. The call has been canceled.
10112 = A database query failed because it was actively
refused.
11001 = No such host is known.
11002 = This is usually a temporary error during hostname
resolution and means that the local server did not receive a
response from an authoritative server.
11003 = A non-recoverable error occurred during a database
lookup.
11004 = The requested name is valid and was found in the
database, but it does not have the correct associated data
being resolved for.
11005 = At least one reserve has arrived.
11006 = At least one path has arrived.
11007 = There are no senders.
11008 = There are no receivers.
11009 = Reserve has been confirmed.
11010 = Error due to lack of resources.
11011 = Rejected for administrative reasons - bad credentials.
11012 = Unknown or conflicting style.
11013 = Problem with some part of the filterspec or
providerspecific buffer in general.
11014 = Problem with some part of the flowspec.
11015 = General QOS error.
11016 = An invalid or unrecognized service type was found in
the flowspec.
11017 = An invalid or inconsistent flowspec was found in the
QOS structure.
11018 = Invalid QOS provider-specific buffer.
11019 = An invalid QOS filter style was used.
11020 = An invalid QOS filter type was used.
11021 = An incorrect number of QOS FILTERSPECs were
specified in the FLOWDESCRIPTOR.
11022 = An object with an invalid ObjectLength field was
specified in the QOS provider-specific buffer.
11023 = An incorrect number of flow descriptors was specified
in the QOS structure.
11024 = An unrecognized object was found in the QOS
provider-specific buffer.
11025 = An invalid policy object was found in the QOS provider-
specific buffer.
11026 = An invalid QOS flow descriptor was found in the flow
descriptor list.
11027 = An invalid or inconsistent flowspec was found in the
QOS provider-specific buffer.
11028 = An invalid FILTERSPEC was found in the QOS
provider-specific buffer.
11029 = An invalid shape discard mode object was found in the
QOS provider-specific buffer.
11030 = An invalid shaping rate object was found in the QOS
provider-specific buffer.
11031 = A reserved policy element was found in the QOS
provider-specific buffer.

Parameters for Nemo protocol error |Top|

Name Type Description
Data transfer cause Integer Data transfer cause
1 = Timeout
2 = Invalid remote address
4 = Invalid remote file.

Parameters for FTP and SFTP protocol error |Top|

Parameters for HTTP protocol error |Top|

Name Type Description
HTTP cause Integer HTTP cause
1 = Timeout
2 = Invalid remote address
4 = Invalid remote file
5 = Invalid local file
100 = Continue
101 = Switching protocols
102 = Processing
200 = OK, success
201 = Created
202 = Accepted
203 = Non-authoritative information
204 = No content
205 = Reset content
206 = Partial content
208 = Already reported
300 = Multiple choices
301 = Moved permanently
302 = Found
In some cases this can be same as moved temporarily.
303 = See other
304 = Not modified
305 = Use proxy
306 = Reserved
307 = Temporary redirect
308 = Permanent redirect
400 = Bad request
Server could not understand request.
401 = Unauthorized
402 = Payment required
403 = Forbidden
Operation is understood but refused.
404 = Not Found
405 = Method not allowed
406 = Not acceptable
407 = Proxy authentication required
408 = Request timeout
409 = Conflict
410 = Gone
411 = Length Required
412 = Precondition failed
413 = Request entity too large
414 = Request-URI too long
415 = Unsupported media type
416 = Requested range not satisfiable
417 = Expectation failed
422 = Unprocessable entity
423 = Locked
424 = Failed dependency
426 = Upgrade required
428 = Precondition required
429 = Too many requests
431 = Request header fields too large
500 = Internal server error
501 = Not implemented
502 = Bad gateway
503 = Service unavailable
504 = Gateway timeout
505 = HTTP version not supported
1120 = Connection dropped by remote host
Parameters for SMTP protocol error |Top|
Name Type Description
SMTP cause Integer SMTP cause
1 = Timeout
2 = Invalid remote address
5 = Invalid local file
102 = Invalid remote address
421 = Service not available, closing transmission channel
450 = Requested mail action not taken: mailbox unavailable
451 = Requested action aborted: local error in processing
452 = Requested action not taken: insufficient system storage
500 = Syntax error, command unrecognized
501 = Syntax error in parameters or arguments
502 = Command not implemented
503 = Bad sequence of commands
504 = Command parameter not implemented
535 = Incorrect password or account name
550 = Requested action not taken: mailbox unavailable
551 = User not local
552 = Requested mail action aborted: exceeded storage
allocation
553 = Requested action not taken: mailbox name not allowed
554 = Transaction failed
1120 = Connection dropped by remote host

Parameters for POP3 protocol error |Top|

Parameters for WAP and MMS protocol error |Top|

Parameters for streaming protocol error |Top|

Parameters for HTTP browsing protocol error |Top|

Parameters for ICMP ping protocol error |Top|

Name Type Description
ICMP ping cause Integer ICMP ping cause
2 = Invalid remote address
119 = Message too short

Parameters for IPerf protocol error |Top|

Name Type Description
Data transfer cause Integer Data transfer cause
1 = Timeout
2 = Invalid remote address
4 = Invalid remote file.

Parameters for trace route protocol error |Top|

Parameters for IMAP protocol error |Top|

Parameters for Facebook protocol error |Top|

Parameters for Twitter protocol error |Top|

Parameters for Instagram protocol error |Top|

Parameters for LinkedIn protocol error |Top|

Parameters for Youtube PEVQ-S protocol error |Top|

Parameters for Speedtest |Top|

Name Type Description
Reserved Integer Reserved
Always n/a.

Parameters for mScore |Top|

Parameters for Netflix |Top|

Name Type Description
Reserved Integer Reserved
Currently this is always n/a.

Parameters for WhatsApp |Top|

Name Type Description
Reserved Integer Reserved
Currently this is always n/a.

Parameters for test system failure |Top|

Name Type Description
Reserved Integer Reserved
Always n/a.

Data transfer request (DREQ)

Parameters |Top|
Name Type Description
Data transfer context ID Context Data transfer context ID
Data connection context ID Context Data connection context ID
Application protocol Integer Application protocol
0 = Nemo protocol using modem connection
1 = Nemo protocol using TCP
2 = Nemo protocol using UDP
3 = FTP
4 = HTTP
5 = SMTP
6 = POP3
7 = MMS
8 = WAP 1.0
9 = Streaming
Currently this can be either VLC or Youtube.
10 = WAP 2.0
11 = HTTP browsing
12 = ICMP ping
13 = IPerf over TCP
14 = IPerf over UDP
15 = Trace route
16 = SFTP
17 = IMAP
18 = Facebook
19 = Twitter
20 = Instagram
21 = LinkedIn
22 = Youtube PEVQ-S
23 = Dropbox
24 = Speedtest
25 = mScore
26 = Netflix
27 = WhatsApp
Transf. dir. Integer Data transfer direction
1 = Uplink
2 = Downlink
3 = Uplink and downlink

Parameters for Nemo test protocol |Top|

Name Type Description
File size Integer File size
Amount of data to be transferred.
Minimum value: 0
Unit: byte
Packet size Integer Data transfer packet size
Packet size used in data transfer.
Minimum value: 0
Unit: byte
Rate limit Integer Data transfer bitrate limit
Transfer rate limit used in the transfer.
Unit: bit/s
Ping size Integer Ping packet size
Ping packet size is the size of the ping packet. The value also
determines the size of the reply packet.
Minimum value: 0
Unit: byte
Ping rate Integer Ping rate
Ping rate determines the delay between two consecutive ping
requests.
Minimum value: 0
Unit: ms
Ping timeout Integer Ping timeout
Ping timeout determines the maximum time between a ping
request and the reply. If this time is exceeded, ping
measurement event is created using the timeout parameter.
Minimum value: 0
Unit: ms

Parameters for FTP and SFTP |Top|

Name Type Description
File size Integer File size
Amount of data to be transferred.
Minimum value: 0
Unit: byte
Filename String Data transfer filename
Transf. att. # Integer Data transfer attempt number
Threads Integer Data transfer threads
Number of concurrent data transfers.
Timeout Integer Data transfer timeout
If no data has been transferred during the timeout period, the
data transfer is terminated with the timeout result.
Minimum value: 0
Unit: ms

Parameters for HTTP |Top|

Parameters for SMTP |Top|

Name Type Description
File size Integer File size
Amount of data to be transferred.
Minimum value: 0
Unit: byte
Filename String Data transfer filename
Timeout Integer Data transfer timeout
If no data has been transferred during the timeout period, the
data transfer is terminated with the timeout result.
Minimum value: 0
Unit: ms

Parameters for POP3 |Top|

Parameters for MMS |Top|

Name Type Description
MMS file size Integer MMS file size
Amount of data to be transferred.
Minimum value: 0
Unit: byte
MMS filename String MMS filename
Timeout Integer Data transfer timeout
If no data has been transferred during the timeout period, the
data transfer is terminated with the timeout result.
Minimum value: 0
Unit: ms

Parameters for WAP 1.0 and 2.0 |Top|

Parameters for Streaming |Top|

Parameters for HTTP browsing |Top|

Name Type Description
Filename String Data transfer filename
Timeout Integer Data transfer timeout
If no data has been transferred during the timeout period, the
data transfer is terminated with the timeout result.
Minimum value: 0
Unit: ms

Parameters for ICMP ping |Top|

Name Type Description
Ping size Integer Ping packet size
Ping packet size is the size of the ping packet. The value also
determines the size of the reply packet.
Minimum value: 0
Unit: byte
Ping rate Integer Ping rate
Ping rate determines the delay between two consecutive ping
requests.
Minimum value: 0
Unit: ms
Ping timeout Integer Ping timeout
Ping timeout determines the maximum time between a ping
request and the reply. If this time is exceeded, ping
measurement event is created using the timeout parameter.
Minimum value: 0
Unit: ms
Data connection context ID Context Data connection context ID

Parameters for IPerf over TCP |Top|

Name Type Description
Data size Integer Data size
Amount of data to be transferred. For time based transfers this
information is not available.
Minimum value: 0
Unit: byte
Threads Integer Data transfer threads
Number of concurrent data transfers.
Timeout Integer Data transfer timeout
If no data has been transferred during the timeout period, the
data transfer is terminated with the timeout result.
Minimum value: 0
Unit: ms

Parameters for IPerf over UDP |Top|

Parameters for trace route |Top|

Name Type Description
Packet size Integer Trace route packet size
Currently not available.
Minimum value: 0
Unit: byte
Timeout Integer Trace route total timeout
If the whole path to the destination has not been traced during
the timeout period the trace route is recorded as failed.
Minimum value: 0
Unit: ms
TTL Integer Trace route time to live
Maximum number of hops before failure.
Hop timeout Integer Trace route hop timeout
Minimum value: 0
Unit: ms

Parameters for IMAP |Top|

Parameters for Facebook |Top|

Name Type Description
Facebook operation Integer Facebook operation
1 = Get user feed
2 = Get friend list
3 = Post a status update
4 = Post an image
5 = Post a video
Timeout Integer Data transfer timeout
If no data has been transferred during the timeout period, the
data transfer is terminated with the timeout result.
Minimum value: 0
Unit: ms
File size Integer File size
This parameter is valid only with post a video operation.
Minimum value: 0
Unit: byte

Parameters for Twitter |Top|

Name Type Description
Twitter operation Integer Twitter operation
1 = Load home page
2 = Load profile
3 = Follow Twitter feed
4 = Text tweet
5 = Photo tweet
Timeout Integer Data transfer timeout
If no data has been transferred during the timeout period, the
data transfer is terminated with the timeout result.
Minimum value: 0
Unit: ms
Parameters for Instagram |Top|
Name Type Description
Instagram operation Integer Instagram operation
1 = Load user feed
2 = Load self feed
3 = Load popular feed
4 = Search media with a tag
Timeout Integer Data transfer timeout
If no data has been transferred during the timeout period, the
data transfer is terminated with the timeout result.
Minimum value: 0
Unit: ms

Parameters for LinkedIn |Top|

Name Type Description
LinkedIn operation Integer LinkedIn operation
1 = Load self feed
2 = Load profile from contact list
3 = Load profile using public URL
4 = Share text and URL
5 = Load my info
Timeout Integer Data transfer timeout
If no data has been transferred during the timeout period, the
data transfer is terminated with the timeout result.
Minimum value: 0
Unit: ms

Parameters for Youtube PEVQ-S |Top|

Parameters for Dropbox |Top|

Name Type Description
Dropbox operation Integer Dropbox operation
1 = Upload
2 = Download
Filename String Data transfer filename
Timeout Integer Data transfer timeout
If no data has been transferred during the timeout period, the
data transfer is terminated with the timeout result.
Minimum value: 0
Unit: ms
File size Integer File size
Amount of data to be transferred.
Minimum value: 0
Unit: byte

Parameters for Speedtest |Top|

Name Type Description

Parameters for mScore |Top|

Name Type Description
mScore operation Integer mScore operation
1 = Shooter UL
2 = Shooter DL
3 = Flash UL
4 = Flash DL
5 = Packet loss UL
6 = packet loss DL
7 = Score

Parameters for Netflix |Top|

Parameters for WhatsApp |Top|

Name Type Description
WhatsApp operation Integer WhatsApp operation
1 = Post message
2 = Post picture
Timeout Integer Data transfer timeout
If no data has been transferred during the timeout period, the
data transfer is terminated with the timeout result.
Minimum value: 0
Unit: ms
File size Integer File size
Amount of data to be transferred.
Minimum value: 0
Unit: byte

Data transfer completed (DCOMP)

Event ID DCOMP
Cellular systems All
Record state Data transfer state
Description Recorded when data transfer is stopped. For TCP based protocols when the socket
connection to the server is terminated. The measurement event ends the data transfer
state.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous
|Parameters |Parameters for success, partial success, abortion, and test system failure. |Parameters for socket error |Parameters for Nemo protocol error
|Parameters for FTP and SFTP protocol error |Parameters for HTTP protocol error |Parameters for SMTP protocol error |Parameters for POP3 protocol
error |Parameters for WAP and MMS protocol error |Parameters for streaming protocol error |Parameters for HTTP browsing protocol error |Parameters for
ICMP ping protocol error |Parameters for IPerf protocol error |Parameters for trace route protocol error |Parameters for IMAP protocol error |Parameters for
Facebook protocol error |Parameters for Twitter protocol error |Parameters for Instagram protocol error |Parameters for LinkedIn protocol error |Parameters
for Youtube PEVQ-S protocol error |Parameters for Dropbox protocol error |Parameters for Speedtest |Parameters for mScore protocol error |Parameters
for Netflix protocol error |Parameters for WhatsApp protocol error |Parameters for ICMP ping |Parameters for all protocols |

Parameters |Top|
Name Type Description
Data transfer context ID Context Data transfer context ID
Application protocol Integer Application protocol
0 = Nemo protocol using modem connection
1 = Nemo protocol using TCP
2 = Nemo protocol using UDP
3 = FTP
4 = HTTP
5 = SMTP
6 = POP3
7 = MMS
8 = WAP 1.0
9 = Streaming
Currently this can be either VLC or Youtube.
10 = WAP 2.0
11 = HTTP browsing
12 = ICMP ping
13 = IPerf over TCP
14 = IPerf over UDP
15 = Trace route
16 = SFTP
17 = IMAP
18 = Facebook
19 = Twitter
20 = Instagram
21 = LinkedIn
22 = Youtube PEVQ-S
23 = Dropbox
24 = Speedtest
25 = mScore
26 = Netflix
27 = WhatsApp
Transf. status Integer Data transfer status
1 = Success
2 = Socket error
3 = Protocol error or timeout
4 = Test system failure
5 = User abort
6 = Partial success
Transfer is considered a partial success when only some of
the content has been transferred successfully e.g. during
HTTP browsing. Content reply status code parameter in the
DCONTENT measurement event defines the transfer status
for each transferred item separately.

Parameters for success, partial success, abortion, and test system failure. |Top|
Name Type Description
Reserved Integer Reserved
Always n/a.

Parameters for socket error |Top|

Parameters for FTP and SFTP protocol error |Top|

Parameters for HTTP protocol error |Top|

Parameters for SMTP protocol error |Top|

Parameters for POP3 protocol error |Top|

Parameters for WAP and MMS protocol error |Top|

Parameters for streaming protocol error |Top|

Parameters for HTTP browsing protocol error |Top|

Parameters for ICMP ping protocol error |Top|

Name Type Description
ICMP ping cause Integer ICMP ping cause
2 = Invalid remote address
119 = Message too short

Parameters for IPerf protocol error |Top|

Name Type Description
Data transfer cause Integer Data transfer cause
1 = Timeout
2 = Invalid remote address
4 = Invalid remote file.

Parameters for trace route protocol error |Top|

Parameters for IMAP protocol error |Top|

Parameters for Facebook protocol error |Top|

Parameters for Twitter protocol error |Top|

Parameters for Instagram protocol error |Top|

Parameters for LinkedIn protocol error |Top|

Parameters for Youtube PEVQ-S protocol error |Top|

Parameters for Dropbox protocol error |Top|

Name Type Description
Dropbox cause Integer Dropbox cause
4 = Invalid remote file
5 = Invalid local file
421 = Service not available
425 = Cannot open connection

Parameters for Speedtest |Top|

Name Type Description
Reserved Integer Reserved

Parameters for mScore protocol error |Top|

Parameters for Netflix protocol error |Top|

Name Type Description
Reserved Integer Reserved
Currently this is always n/a.

Parameters for WhatsApp protocol error |Top|

Name Type Description
Reserved Integer Reserved
Currently this is always n/a.

Parameters for ICMP ping |Top|

Name Type Description

Parameters for all protocols |Top|

Name Type Description
Service access time Integer Data transfer IP service access time
Time from DREQ to moment when socket connection has been
established with FTP, GET/POST/PUT send with HTTP and
browsing, RETR send with POP3, and MAIL FROM send with
SMTP. This is the same as the ETSI stop trigger point (method
B with FTP and HTTP). See more ETSI TS 102.250-2.
Minimum value: 0
Unit: ms
IP term. time Integer Data transfer IP termination time
Time from last received data packet or ACK of the last
transmitted data packet to the DCOMP.
Minimum value: 0
Unit: ms
Bytes UL Integer Transferred bytes uplink
This is a cumulative byte count from the beginning of the
transfer.
Minimum value: 0
Unit: byte
Bytes DL Integer Transferred bytes downlink
This is a cumulative byte count from the beginning of the
transfer.
Minimum value: 0
Unit: byte
Header transfer time Integer Header transfer time
Currently this parameter is only logged for POP3 and IMAP
protocols.
Minimum value: 0
Unit: ms
TCP handshake time Integer TCP handshake time
Time from transmitted SYN to the time when ACK has been
received for it. Always one roundtrip.
Minimum value: 0
Unit: ms
Redirect address String Redirect address
This is the address where the transfer was redirected.
Payload access time Integer Data transfer IP payload access time
Time from DREQ to moment when the first payload data is send
(upload) or received (download). For FTP and HTTP this is the
same as ETSI stop method A trigger point. See more ETSI TS
102.250-2.
Minimum value: 0
Unit: ms
Processing delay Integer Data transfer IP processing delay
Time from DREQ to the first socket opening SYN.
Minimum value: 0
Unit: ms
Connection processing Integer Data connection processing delay
delay Time from DAA to the first socket opening SYN. With FTP this
refers to control socket.
Minimum value: 0
Unit: ms

Data throughput (DRATE)

Event ID DRATE
Cellular systems All
Record state Data transfer state
Description Recorded semi-periodically when application layer data is transferred to or received from
the server. Minimum time period between two measurement events is one second; the
maximum is ten seconds (zero values are recorded when data has not been transferred
at a point in time).
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous
|Parameters |Parameters for application protocols |

Parameters for application protocols |Top|

Name Type Description
App. rate UL Integer Application throughput uplink
The value of this parameter is calculated based on the SDUs
that are successfully transferred through the application layer.
Missing and erroneous application layer data is excluded from
the throughput calculation. Note that with TCP/IP-based
application protocols, the TCP/IP headers are not taken into
account when calculating the throughput.
Minimum value: 0
Unit: bit/s
App. rate DL Integer Application throughput downlink
The value of this parameter is calculated based on the SDUs
that are successfully transferred through the application layer.
Missing and erroneous application layer data is excluded from
the throughput calculation. Note that with TCP/IP-based
application protocols, the TCP/IP headers are not taken into
account when calculating the throughput.
Minimum value: 0
Unit: bit/s
Bytes UL Integer Transferred bytes uplink
This is a cumulative byte count from the beginning of the
transfer.
Minimum value: 0
Unit: byte
Bytes DL Integer Transferred bytes downlink
This is a cumulative byte count from the beginning of the
transfer.
Minimum value: 0
Unit: byte

Packet error rate (PER)

Event ID PER
Cellular systems All
Record state Data transfer state
Description Recorded semi-periodically when application layer data is transferred to or received from
the server. The measurement event is written simultaneously with the DRATE
measurement event for the documented UDP-based protocols.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for streaming and IPerf over UDP protocols |

Parameters |Top|
Name Type Description
Data transfer context ID Context Data transfer context ID
Application protocol Integer Application protocol
9 = Streaming
Currently this can be either VLC or Youtube.
14 = IPerf over UDP

Parameters for streaming and IPerf over UDP protocols |Top|

Name Type Description
PER UL Float Packet error rate uplink
The ratio of erroneously transferred packets to total number of
transferred packets.
Range: 0 – 100
Unit: %
PER DL Float Packet error rate downlink
The ratio of erroneously received packets to total number of
received packets.
Range: 0 – 100
Unit: %
Packets UL Integer Transferred packets uplink
Packets DL Integer Transferred packets downlink
Errors UL Integer Erroneous packets uplink
Errors DL Integer Erroneous packets downlink

Round trip time (RTT)

Event ID RTT
Cellular systems All
Record state Data transfer state
Description Recorded for each ICMP ping packet separately.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for ICMP ping and Speedtest |

Parameters |Top|
Name Type Description
Data transfer context ID Context Data transfer context ID
Application protocol Integer Application protocol
12 = ICMP ping
24 = Speedtest

Parameters for ICMP ping and Speedtest |Top|

Jitter (JITTER)
Event ID JITTER
Cellular systems All
Record state Data transfer state
Description Recorded semi-periodically when application layer data is transferred to or received from
the server. The measurement event is written simultaneously with the DRATE
measurement.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for IPerf over UDP |

Parameters |Top|
Name Type Description
Data transfer context ID Context Data transfer context ID
Application protocol Integer Application protocol
14 = IPerf over UDP

Parameters for IPerf over UDP |Top|

Name Type Description
Jitter UL Integer Packet jitter uplink
Minimum value: 0
Unit: ms
Jitter DL Integer Packet jitter downlink
Minimum value: 0
Unit: ms

Data stream status (DSS)

Event ID DSS
Cellular systems All
Record state Data transfer state
Description Recorded when the data stream state changes.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for streaming, Youtube PEVQ-S, and Netflix. |

Parameters |Top|
Name Type Description
Application protocol Integer Application protocol
9 = Streaming
Currently this can be either VLC or Youtube.
22 = Youtube PEVQ-S
26 = Netflix

Parameters for streaming, Youtube PEVQ-S, and Netflix. |Top|

Name Type Description
Data transfer context ID Context Data transfer context ID
Stream state Integer Data transfer stream state
0 = Uninitialized
1 = Stopped
2 = Buffering
3 = Streaming
Stream bandwidth Integer Data transfer stream bandwidth
Non-measured stream throughput that have to be used to be
able to receive data stream without breaks.
Minimum value: 0
Unit: bit/s
Stream resolution String Data transfer stream resolution
The string format is XxY, e.g. 1920x1080.
Stream duration Integer Data transfer stream total duration
Minimum value: 0
Unit: ms
Stream position Integer Data transfer stream playback position
Minimum value: 0
Unit: ms
Stream content type String Data transfer stream content type
Stream video codec String Data transfer stream video codec
Stream audio codec String Data transfer stream audio codec
File size Integer File size
Amount of data to be transferred.
Minimum value: 0
Unit: byte

Data content (DCONTENT)

Event ID DCONTENT
Cellular systems All
Record state Data transfer state
Description Recorded after data transfer has been completed and WAP/HTML content has been
parsed.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for WAP 1.0 and 2.0 |Parameters for HTTP browsing, Facebook, Twitter, Instagram, and LinkedIn |
Parameters |Top|
Name Type Description
Application Integer Application protocol
protocol 8 = WAP 1.0
10 = WAP 2.0
11 = HTTP browsing
18 = Facebook
19 = Twitter
20 = Instagram
21 = LinkedIn

Parameters for WAP 1.0 and 2.0 |Top|

Name Type Description
Data transfer Context Data transfer context ID
context ID
Number of Integer Number of content elements
content
elements
Number of Integer Number of parameters per content
parameters per
content
Content String Content
For text this is the content itself and for the other content types the URL
to the resource.
Type Integer Content type
1 = File
2 = Image
3 = Link
4 = Text
Size Integer Content size
Minimum value: 0
Unit: byte
Encoding String Content encoding

Parameters for HTTP browsing, Facebook, Twitter, Instagram, and LinkedIn |Top|
Name Type Description
Data transfer Context Data transfer context ID
context ID
Number of Integer Number of content elements
content
elements
Number of Integer Number of parameters per content
parameters per
content
Content String Content
For text this is the content itself and for the other content types the URL
to the resource.
Type Integer Content type
1 = File
2 = Image
3 = Link
4 = Text
Size Integer Content size
Minimum value: 0
Unit: byte
Encoding String Content encoding
Download Integer Content download duration
duration Minimum value: 0
Unit: ms
Start time String Content download start time
Reply Integer Content reply status code
100 = Continue
101 = Switching protocols
102 = Processing
200 = OK, success
201 = Created
202 = Accepted
203 = Non-authoritative information
204 = No content
205 = Reset content
206 = Partial content
208 = Already reported
300 = Multiple choices
301 = Moved permanently
302 = Found
In some cases this can be same as moved temporarily.
303 = See other
304 = Not modified
305 = Use proxy
306 = Reserved
307 = Temporary redirect
308 = Permanent redirect
400 = Bad request
Server could not understand request.
401 = Unauthorized
402 = Payment required
403 = Forbidden
Operation is understood but refused.
404 = Not Found
405 = Method not allowed
406 = Not acceptable
407 = Proxy authentication required
408 = Request timeout
409 = Conflict
410 = Gone
411 = Length Required
412 = Precondition failed
413 = Request entity too large
414 = Request-URI too long
415 = Unsupported media type
416 = Requested range not satisfiable
417 = Expectation failed
422 = Unprocessable entity
423 = Locked
424 = Failed dependency
426 = Upgrade required
428 = Precondition required
429 = Too many requests
431 = Request header fields too large
500 = Internal server error
501 = Not implemented
502 = Bad gateway
503 = Service unavailable
504 = Gateway timeout
505 = HTTP version not supported
1120 = Connection dropped by remote host
Content-Type String Content HTTP Content-Type
This is the same as MIME type. The parameter gets values such as
text/html, video/3gpp, or image/jpeg.
Data content (DSUMMARY)
Event ID DSUMMARY
Cellular systems All
Record state Data transfer state
Description Recorded after data transfer to summarize transfer result.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for mScore |

Parameters |Top|
Name Type Description
Application protocol Integer Application protocol
25 = mScore

Parameters for mScore |Top|

Name Type Description
Data transfer context ID Context Data transfer context ID
TCP bytes Integer TCP bytes
Minimum value: 0
Unit: byte
TCP throughput Integer TCP throughput
Minimum value: 0
Unit: bit/s
TCP segments Integer TCP segments
TCP ACKs Integer TCP ACKs
TCP UL retr. Integer TCP uplink retransmission rate
Minimum value: 0
TCP OoOs Integer TCP out-of-order packets
Out Of Order is a packet that arrives in the middle of data
sequence.
Minimum value: 0
TCP out of delay Integer TCP out of delay
GeoIP ASN String GeoIP ASN
This information is received from the MaxMind GeoIP database.
GeoIP country String GeoIP country
GeoIP city String GeoIP city
Jitter DL Integer Jitter DL
Minimum value: 0
Unit: ms
Jitter DL min Integer Jitter DL min
Minimum value: 0
Unit: ms
Jitter DL max Integer Jitter DL max
Minimum value: 0
Unit: ms
Jitter underrun Float Jitter underrun
Range: 0 – 100
Unit: %
Jitter overflow Float Jitter overflow
Range: 0 – 100
Unit: %
Ping RTT Integer Ping RTT
Minimum value: 0
Unit: ms
Ping RTT min Integer Ping RTT min
Minimum value: 0
Unit: ms
Ping RTT max Integer Ping RTT max
Minimum value: 0
Unit: ms
Achievable throughput Integer Achievable throughput
Achievable throughput is computed as the median value of
100ms throughput samples where TCP is congested (when
RTT is greater than target RTT, achievable throughput can be
estimated only if congestion percent is more than 10%).
TCP throughput 10pctl Integer TCP throughput 10pctl
The 10th percentile of 100ms throughput samples is the value
for which 10% of the data points are smaller.
Minimum value: 0
Unit: bit/s
TCP throughput 50pctl Integer TCP throughput 50pctl
The 50th percentile of 100ms throughput samples is the value
for which 50% of the data points are smaller.
Minimum value: 0
Unit: bit/s
TCP throughput 90pctl Integer TCP throughput 90pctl
The 90th percentile of 100ms throughput samples is the value
for which 90% of the data points are smaller.
Minimum value: 0
Unit: bit/s
TCP RTT 10pctl Integer TCP RTT 10pctl
The 10th percentile of 100ms RTT samples is the value for
which 10% of the data points are smaller.
Minimum value: 0
Unit: ms
TCP RTT 50pctl Integer TCP RTT 50pctl
The 50th percentile of 100ms RTT samples is the value for
which 50% of the data points are smaller.
Minimum value: 0
Unit: ms
TCP RTT 90pctl Integer TCP RTT 90pctl
The 90th percentile of 100ms RTT samples is the value for
which 90% of the data points are smaller.
Minimum value: 0
Unit: ms
TCP RWIN 10pctl Integer TCP RWIN 10pctl
The 10th percentile of 100ms receive window size samples is
the value for which 10% of the data points are smaller.
Minimum value: 0
Unit: byte
TCP RWIN 50pctl Integer TCP RWIN 50pctl
The 50th percentile of 100ms receive window size samples is
the value for which 50% of the data points are smaller.
Minimum value: 0
Unit: byte
TCP RWIN 90pctl Integer TCP RWIN 90pctl
The 90th percentile of 100ms receive window size samples is
the value for which 90% of the data points are smaller.
Minimum value: 0
Unit: byte
TCP BIF 10pctl Integer TCP BIF 10pctl
The 10th percentile of 100ms bytes in flight samples is the
value for which 10% of the data points are smaller.
Minimum value: 0
Unit: byte
TCP BIF 50pctl Integer TCP BIF 50pctl
The 50th percentile of 100ms bytes in flight samples is the
value for which 50% of the data points are smaller.
Minimum value: 0
Unit: byte
TCP BIF 90pctl Integer TCP BIF 90pctl
The 90th percentile of 100ms bytes in flight samples is the
value for which 90% of the data points are smaller.
Minimum value: 0
Unit: byte
TCP inter-act 10pctl Integer TCP inter-act 10pctl
The 10th percentile of 100ms inter-act delay samples is the
value for which 10% of the data points are smaller.
Minimum value: 0
Unit: ms
TCP inter-act 50pctl Integer TCP inter-act 50pctl
The 50th percentile of 100ms inter-act delay samples is the
value for which 50% of the data points are smaller.
Minimum value: 0
Unit: ms
TCP inter-act 90pctl Integer TCP inter-act 90pctl
The 90th percentile of 100ms inter-act delay samples is the
value for which 90% of the data points are smaller.
Minimum value: 0
Unit: ms
mScore MOS Float mScore MOS
Range: 0 – 5
Unit: MOS
Lim. RWIN Float Throughput limited by RWIN
Range: 0 – 100
Unit: %
Lim. congestion Float Throughput limited by congestion
Range: 0 – 100
Unit: %
Lim. stall Float Throughput limited by stall
Range: 0 – 100
Unit: %
Lim. retransmission Float Throughput limited by retransmission
Range: 0 – 100
Unit: %
Lim. CWIN Float Throughput limited by congestion window
Range: 0 – 100
Unit: %
Root cause analysis Integer Root cause analysis subcause
subcause 100 = Device
200 = Congestion
300 = Core/backhaul
400 = WiFi
500 = Server
900 = Multiple reasons

Trace route (DTRACE)

Event ID DTRACE
Cellular systems All
Record state Data transfer state
Description One measurement event is recorded for each trace route host.
Tools Nemo Outdoor
|Parameters |Parameters for trace route |
Parameters |Top|
Name Type Description
Data transfer context ID Context Data transfer context ID
Application protocol Integer Application protocol
15 = Trace route

Parameters for trace route |Top|

Name Type Description
Host String Destination address
Trace hop count Integer Trace hop count
Ping RTT Integer Ping round trip time
Minimum value: 0
Unit: ms

DNS query (DNSQUERY)

Event ID DNSQUERY
Cellular systems All
Record state Always
Description Recorded after DNS query.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Data connection Context Data connection context ID
context ID
DNS query String DNS query address
address This is the domain name in human friendly format and this is translated
to the IP address using DNS.
DNS query Integer DNS host name resolution time
latency See 3GPP TS 102.25 subclause 5.11.
Minimum value: 0
Unit: ms
DNS query result Integer DNS query result
0 = Success
1460 = Timeout
9001 = DNS server unable to interpret format.
9002 = DNS server failure.
9003 = DNS name does not exist.
9004 = DNS request not supported by name server.
9005 = DNS operation refused.
9006 = DNS name that ought not exist, does exist.
9007 = DNS RR set that ought not exist, does exist.
9008 = DNS RR set that ought to exist, does not exist.
9009 = DNS server not authoritative for zone.
9010 = DNS name in update or prereq is not in zone.
9016 = DNS signature failed to verify.
9017 = DNS bad key.
9018 = DNS signature validity expired.
9501 = No records found for given DNS query.
9502 = Bad DNS packet.
9503 = No DNS packet.
9504 = DNS error, check rcode.
9505 = Unsecured DNS packet.
9551 = Invalid DNS type.
9552 = Invalid IP address.
9553 = Invalid property.
9554 = Try DNS operation again later.
9555 = Record for given name and type is not unique.
9556 = DNS name does not comply with RFC specifications.
9557 = DNS name is a fully-qualified DNS name.
9558 = DNS name is dotted (multi-label).
9559 = DNS name is a single-part name.
9560 = DNS name contains an invalid character.
9561 = DNS name is entirely numeric.
9562 = The operation requested is not permitted on a DNS root server.
9563 = The record could not be created because this part of the DNS
namespace has been delegated to another server.
9564 = The DNS server could not find a set of root hints.
9565 = The DNS server found root hints but they were not consistent
across all adapters.
9566 = The specified value is too small for this parameter.
9567 = The specified value is too large for this parameter.
9568 = This operation is not allowed while the DNS server is loading
zones in the background. Please try again later.
9569 = The operation requested is not permitted on against a DNS
server running on a read-only DC.
9570 = No data is allowed to exist underneath a DNAME record.
9571 = This operation requires credentials delegation.
9601 = DNS zone does not exist.
9602 = DNS zone information not available.
9603 = Invalid operation for DNS zone.
9604 = Invalid DNS zone configuration.
9605 = DNS zone has no start of authority (SOA) record.
9606 = DNS zone has no Name Server (NS) record.
9607 = DNS zone is locked.
9608 = DNS zone creation failed.
9609 = DNS zone already exists.
9610 = DNS automatic zone already exists.
9611 = Invalid DNS zone type.
9612 = Secondary DNS zone requires master IP address.
9613 = DNS zone not secondary.
9614 = Need secondary IP address.
9615 = WINS initialization failed.
9616 = Need WINS servers.
9617 = NBTSTAT initialization call failed.
9618 = Invalid delete of start of authority (SOA)
9619 = A conditional forwarding zone already exists for that name.
9620 = This zone must be configured with one or more master DNS
server IP addresses.
9621 = The operation cannot be performed because this zone is
shutdown.
9651 = Primary DNS zone requires datafile.
9652 = Invalid datafile name for DNS zone.
9653 = Failed to open datafile for DNS zone.
9654 = Failed to write datafile for DNS zone.
9655 = Failure while reading datafile for DNS zone.
9701 = DNS record does not exist.
9702 = DNS record format error.
9703 = Node creation failure in DNS.
9704 = Unknown DNS record type.
9705 = DNS record timed out.
9706 = Name not in DNS zone.
9707 = CNAME loop detected.
9708 = Node is a CNAME DNS record.
9709 = A CNAME record already exists for given name.
9710 = Record only at DNS zone root.
9711 = DNS record already exists.
9712 = Secondary DNS zone data error.
9713 = Could not create DNS cache data.
9714 = DNS name does not exist.
9715 = Could not create pointer (PTR) record.
9716 = DNS domain was undeleted.
9717 = The directory service is unavailable.
9718 = DNS zone already exists in the directory service.
9719 = DNS server not creating or reading the boot file for the directory
service integrated DNS zone.
9720 = Node is a DNAME DNS record.
9721 = A DNAME record already exists for given name.
9722 = An alias loop has been detected with either CNAME or DNAME
records.
9751 = DNS AXFR (zone transfer) complete.
9752 = DNS zone transfer failed.
9753 = Added local WINS server.
9801 = Secure update call needs to continue update request.
9851 = TCP/IP network protocol not installed.
9852 = No DNS servers configured for local system.
9901 = The specified directory partition does not exist.
9902 = The specified directory partition already exists.
9903 = This DNS server is not enlisted in the specified directory
partition.
9904 = This DNS server is already enlisted in the specified directory
partition.
9905 = The directory partition is not available at this time. Please wait a
few minutes and try again.
9906 = The application directory partition operation failed.
10004 = A blocking operation was interrupted by a call to
WSACancelBlockingCall.
10009 = The file handle supplied is not valid.
10013 = An attempt was made to access a socket in a way forbidden
by its access permissions.
10014 = The system detected an invalid pointer address in attempting
to use a pointer argument in a call.
10022 = An invalid argument was supplied.
10024 = Too many open sockets.
10035 = A non-blocking socket operation could not be completed
immediately.
10036 = A blocking operation is currently executing.
10037 = An operation was attempted on a non-blocking socket that
already had an operation in progress.
10038 = An operation was attempted on something that is not a socket.
10039 = A required address was omitted from an operation on a
socket.
10040 = A message sent on a datagram socket was larger than the
internal message buffer or some other network limit, or the buffer used
to receive a datagram into was smaller than the datagram itself.
10041 = A protocol was specified in the socket function call that does
not support the semantics of the socket type requested.
10042 = An unknown, invalid, or unsupported option or level was
specified in a getsockopt or setsockopt call.
10043 = The requested protocol has not been configured into the
system, or no implementation for it exists.
10044 = The support for the specified socket type does not exist in this
address family.
10045 = The attempted operation is not supported for the type of object
referenced.
10046 = The protocol family has not been configured into the system or
no implementation for it exists.
10047 = An address incompatible with the requested protocol was
used.
10048 = Only one usage of each socket address (protocol/network
address/port) is normally permitted.
10049 = The requested address is not valid in its context.
10050 = A socket operation encountered a dead network.
10051 = A socket operation was attempted to an unreachable network.
10052 = The connection has been broken due to keep-alive activity
detecting a failure while the operation was in progress.
10053 = An established connection was aborted by the software in your
host machine.
10054 = An existing connection was forcibly closed by the remote host.
10055 = An operation on a socket could not be performed because the
system lacked sufficient buffer space or because a queue was full.
10056 = A connect request was made on an already connected socket.
10057 = A request to send or receive data was disallowed because the
socket is not connected and (when sending on a datagram socket using
a sendto call) no address was supplied.
10058 = A request to send or receive data was disallowed because the
socket had already been shut down in that direction with a previous
shutdown call.
10059 = Too many references to some kernel object.
10060 = A connection attempt failed because the connected party did
not properly respond after a period of time, or established connection
failed because connected host has failed to respond.
10061 = No connection could be made because the target machine
actively refused it.
10062 = Cannot translate name.
10063 = Name component or name was too long.
10064 = A socket operation failed because the destination host was
down.
10065 = A socket operation was attempted to an unreachable host.
10066 = Cannot remove a directory that is not empty.
10067 = A Windows Sockets implementation may have a limit on the
number of applications that may use it simultaneously.
10068 = Ran out of quota.
10069 = Ran out of disk quota.
10070 = File handle reference is no longer available.
10071 = Item is not available locally.
10091 = WSAStartup cannot function at this time because the
underlying system it uses to provide network services is currently
unavailable.
10092 = The Windows Sockets version requested is not supported.
10093 = Either the application has not called WSAStartup, or
WSAStartup failed.
10101 = Returned by WSARecv or WSARecvFrom to indicate the
remote party has initiated a graceful shutdown sequence.
10102 = No more results can be returned by WSALookupServiceNext.
10103 = A call to WSALookupServiceEnd was made while this call was
still processing. The call has been canceled.
10104 = The procedure call table is invalid.
10105 = The requested service provider is invalid.
10106 = The requested service provider could not be loaded or
initialized.
10107 = A system call that should never fail has failed.
10108 = No such service is known. The service cannot be found in the
specified name space.
10109 = The specified class was not found.
10110 = No more results can be returned by WSALookupServiceNext.
10111 = A call to WSALookupServiceEnd was made while this call was
still processing. The call has been canceled.
10112 = A database query failed because it was actively refused.
11001 = No such host is known.
11002 = This is usually a temporary error during hostname resolution
and means that the local server did not receive a response from an
authoritative server.
11003 = A non-recoverable error occurred during a database lookup.
11004 = The requested name is valid and was found in the database,
but it does not have the correct associated data being resolved for.
11005 = At least one reserve has arrived.
11006 = At least one path has arrived.
11007 = There are no senders.
11008 = There are no receivers.
11009 = Reserve has been confirmed.
11010 = Error due to lack of resources.
11011 = Rejected for administrative reasons - bad credentials.
11012 = Unknown or conflicting style.
11013 = Problem with some part of the filterspec or providerspecific
buffer in general.
11014 = Problem with some part of the flowspec.
11015 = General QOS error.
11016 = An invalid or unrecognized service type was found in the
flowspec.
11017 = An invalid or inconsistent flowspec was found in the QOS
structure.
11018 = Invalid QOS provider-specific buffer.
11019 = An invalid QOS filter style was used.
11020 = An invalid QOS filter type was used.
11021 = An incorrect number of QOS FILTERSPECs were specified in
the FLOWDESCRIPTOR.
11022 = An object with an invalid ObjectLength field was specified in
the QOS provider-specific buffer.
11023 = An incorrect number of flow descriptors was specified in the
QOS structure.
11024 = An unrecognized object was found in the QOS provider-
specific buffer.
11025 = An invalid policy object was found in the QOS provider-specific
buffer.
11026 = An invalid QOS flow descriptor was found in the flow descriptor
list.
11027 = An invalid or inconsistent flowspec was found in the QOS
provider-specific buffer.
11028 = An invalid FILTERSPEC was found in the QOS provider-
specific buffer.
11029 = An invalid shape discard mode object was found in the QOS
provider-specific buffer.
11030 = An invalid shaping rate object was found in the QOS provider-
specific buffer.
11031 = A reserved policy element was found in the QOS provider-
specific buffer.
#Results Integer Number of resolved DNS results
#Params/result Integer Number of parameters per resolved DNS result
DNS address String DNS resolved address
The DNS query result in the IP format. When multiple IP addresses is
received for the domain name the first recorded IP address is used by
the recording tool.
DNS cache Integer DNS query cache status
Defines if IP address was received from the client side DNS cache or
requested from the DNS server.
0 = Non-cached
1 = Cached

TCP Statistics (TCPSTAT)

Event ID TCPSTAT
Cellular systems All
Record state Data transfer state
Description Recorded once a second.
Tools Nemo Outdoor
|Parameters |Parameters for application protocols |

Parameters |Top|
Name Type Description
Application protocol Integer Application protocol
0 = Nemo protocol using modem connection
1 = Nemo protocol using TCP
2 = Nemo protocol using UDP
3 = FTP
4 = HTTP
5 = SMTP
6 = POP3
7 = MMS
8 = WAP 1.0
9 = Streaming
Currently this can be either VLC or Youtube.
10 = WAP 2.0
11 = HTTP browsing
13 = IPerf over TCP
14 = IPerf over UDP
16 = SFTP
17 = IMAP
18 = Facebook
19 = Twitter
20 = Instagram
21 = LinkedIn
22 = Youtube PEVQ-S
23 = Dropbox

Parameters for application protocols |Top|

Name Type Description
Data transfer context ID Context Data transfer context ID
TCP RWIN Integer TCP receive window size
See http://en.wikipedia.org/wiki/TCP_tuning.
Minimum value: 0
Unit: byte
TCP send window size Integer TCP send window size
Minimum value: 0
Unit: byte
TCP RTP Integer TCP round-trip time
TCP round-trip time is counted from the moment a data packet
has been sent to a moment when a server has been responded
with an ACK. This calculation is based on the packet
timestamps, not the time the packet is sent and ACK is received
at local time. SRTT (Smoothed Round-Trip Time) is an
averaged estimation of the current RTT. The calculation formula
is: SRTT = (0.9 * previous_SRTT) + (0.1 * current_RTT). See
http://tools.ietf.org/html/rfc6298.
Minimum value: 0
Unit: ms
TCP UL BIF Integer TCP uplink bytes in flight
This parameter shows how much data has been sent or
received, but has not been confirmed by an ACK packet. If
there is a problem with the network or multiple packets are lost
or retransmitted, the value increases until it has been
confirmed. The calculation of this parameters differs from the
way Wireshark does it. In Wireshark, BIF can be quite high if an
Out Of Order packet arrives to the data stream because
Wireshark identifies BIF by sequence numbers. In Outdoor this
is always calculated by inspecting the payload length of non-
sent or non-received packets.
Minimum value: 0
Unit: byte
TCP throughput downlink Integer TCP throughput downlink
Minimum value: 0
Unit: bit/s
TCP throughput uplink Integer TCP throughput uplink
Minimum value: 0
Unit: bit/s
TCP UL retr. Integer TCP uplink retransmission rate
Minimum value: 0
TCP DUP ACKs Integer TCP duplicate ACKs
Duplicate ACK is an ACK packet where all the sequence
numbers are identical to the previous ACK. It is caused by a
missing packet from the server side we try to get the server to
send again.
Minimum value: 0
TCP OoOs Integer TCP out-of-order packets
Out Of Order is a packet that arrives in the middle of data
sequence.
Minimum value: 0
TCP RSTs Integer TCP reset packets
RST packets are an indication about TCP connection that is
only half open and one side has stopped sending information
for some reason and connection has to be closed. Often RST
packet is a response to receiving a packet for a socket that is
already closed.
Minimum value: 0

Cell measurement (CELLMEAS)

Event ID CELLMEAS
Cellular systems GSM,TETRA,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,cdmaOne,CDMA
1x,EVDO,WLAN,GAN WLAN,WiMAX,AMPS,DAMPS,NAMPS,iDEN
Record state Always
Description Recorded when parameter sample is received from the device. Note that not necessarily
all received samples are recorded and currently the recording frequency is about twice
per second in connected state. Separate measurement event is logged for each system.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for GSM |Parameters for TETRA |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |Parameters for LTE
|Parameters for cdmaOne and CDMA 1x |Parameters for EVDO |Parameters for WLAN |Parameters for GAN WLAN |Parameters for WiMAX |Parameters
for AMPS and NAMPS |Parameters for DAMPS |Parameters for iDEN |

Parameters for GSM |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Cell type Integer Cell type
0 = Neighbor
1 = Serving
Band Integer Band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM
ARFCN Integer Channel number
During the active state this is the TCH channel number. If hopping is
enabled the first hopping channel is reported.
BSIC Integer Base station identification code
Range: 0 – 63
RxLev full Float RX level full
The received signal level of all TDMA frames. See 3GPP TS 145.008
subclause 8.4.
Range: −120 – −10
Unit: dBm
RxLev sub Float RX level sub
The received signal level of the subset of the TDMA frames. See 3GPP
TS 145.008 subclause 8.4.
Range: −120 – −10
Unit: dBm
C1 Float C1 criterion
Path loss criterion parameter C1 is used for cell selection and
reselection. See 3GPP TS 145.008 subclause 6.4 (with GPRS, also
subclause 10.1.2).
Unit: dB
C2 Float C2 criterion
The reselection criterion C2 is used for cell reselection. This parameter
is used for cell reselection when the value of the path loss criterion C1 is
over zero. See 3GPP TS 145.008 subclause 6.4.
Unit: dB
C31 Float C31 criterion
The signal level threshold criterion parameter C31 is used to determine
whether prioritized hierarchical GPRS and LSA cell re-selection shall
apply. See 3GPP TS 145.008 subclause 10.1.2.
C32 Float C32 criterion
The cell ranking criterion C32 is used in selecting cells from cells that
have the same priority. See 3GPP TS 145.008 subclause 10.1.2.
HCS priority Integer HCS priority class
Defines the cell re-selection order of the cells. See 3GPP TS 145.008
subclause 10.1.3.
Range: 0 – 7
HCS thr. Float HCS threshold
See 3GPP TS 145.008 subclause 10.1.2.
Range: −48 – −110
Unit: dBm
Cell ID Integer Cell identification
Cell identity of the current cell. For GSM this is 16 bit value, for UMTS
this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this is 28 bit
value (eNB ID + 8 bit cell ID).
Range: 0 – 65535
LAC Integer Location area code
Range: 0 – 65535
RAC Integer Routing area code
Srxlev Float Neighbor Srxlev criterion
Cell selection criterion S based on RX level. This value is only available
during the UMTS mode. See 3GPP TS 25.304 subclause 5.2.3 cell
selection process.
Range: −107 – 90
Unit: dBm

Parameters for TETRA |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Cell type Integer Cell type
0 = Neighbor
1 = Serving
Band Integer Band
20001 = TETRA band 1
20002 = TETRA band 2
20003 = TETRA band 3
20004 = TETRA band 4
20005 = TETRA band 5
20006 = TETRA band 6
20007 = TETRA band 7
20008 = TETRA band 8
20009 = TETRA band 9
20010 = TETRA band 10
20011 = TETRA band 11
20012 = TETRA band 12
20013 = TETRA band 13
20014 = TETRA band 14
20015 = TETRA band 15
29999 = TETRA
ARFCN Integer Channel number
LAC Integer Location area code
Range: 0 – 65535
RSSI Float RSSI
Range: −111 – −10
Unit: dBm
C1 Float C1 criterion
Path loss criterion parameter C1 is used for cell selection and
reselection. See 3GPP TS 145.008 subclause 6.4 (with GPRS, also
subclause 10.1.2).
Unit: dB
C2 Float C2 criterion
The reselection criterion C2 is used for cell reselection. This parameter
is used for cell reselection when the value of the path loss criterion C1 is
over zero. See 3GPP TS 145.008 subclause 6.4.
Unit: dB
CC Integer Color code
Range: 0 – 63

Parameters for UMTS FDD |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Ch Integer Channel number
RSSI Float Carrier RSSI
Whole band (wideband) carrier power including thermal noise, co-carrier
and adjacent carrier interference, and noise generated in the receiver.
Unit: dBm
Band Integer Band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Cell type Integer Cell type
0 = Active
The Node-B the UE is connected to (i.e., the UTRA cells currently
assigning a downlink DPCH to the UE constitute the active set).
1 = Monitored
The Node-B that is included in the neighbor list but not in the active
set.
2 = Detected
The Node-B that is detected by the UE but is not included in the
neighbor list. Reporting of the measurements of the detected set is
only applicable to intra-frequency measurements made by UEs in
CELL_DCH state.
3 = Undetected
Band Integer Band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
Ch Integer Channel number
SC Integer Scrambling code
Range: 0 – 511
Ec/N0 Float Ec/N0
The received energy per chip divided by the power density of the band
measured on the primary CPICH. See 3GPP TS 125.215 subclause
5.1.5.
Range: −30 – 0
Unit: dB
STTD Integer STTD status
0 = STTD not active on PCCPCH
1 = STTD active on PCCPCH
RSCP Float RSCP
The received signal code power of a single code measured on the
primary CPICH. See 3GPP TS 125.215 subclause 5.1.1.
Range: −150 – −20
Unit: dBm
Secondary Integer Secondary scrambling code
SC Range: 0 – 15
Squal Float Squal criterion
Cell selection criterion S based on Ec/N0. Valid only for UMTS FDD
cells. See 3GPP TS 25.304 subclause 5.2.3 cell selection process.
Range: −24 – 24
Srxlev Float Srxlev criterion
Cell selection criterion S based on RSCP. See 3GPP TS 25.304
subclause 5.2.3 cell selection process.
Range: −107 – 90
Hqual Float Hqual criterion
Hierarchical cell criterion H based on Ec/N0. Valid only for UMTS FDD
cells. See 3GPP TS 25.304 subclause 5.2.6 cell reselection evaluation
process.
Range: −32 – 24
Hrxlev Float Hrxlev criterion
Hierarchical cell criterion H based on RSCP. See 3GPP TS 25.304
subclause 5.2.6 cell reselection evaluation process.
Range: −115 – 90
Rqual Float Rqual criterion
Cell ranking criterion R based on Ec/N0. Valid only for UMTS FDD cells.
See 3GPP TS 25.304 subclause 5.2.6 cell reselection evaluation
process.
Range: −200 – 50
Rrxlev Float Rrxlev criterion
Cell ranking criterion R based on RSCP. See 3GPP TS 25.304
subclause 5.2.6 cell reselection evaluation process.
Range: −191 – 25
OFF Integer SFN-CFN difference frames
Range: 0 – 255
Unit: frame
Tm Float SFN-CFN difference chips
Range: 0 – 38400
Unit: chip
Pathloss Float Pathloss
The reduction of the power density from the base station to the mobile
station.
Range: 40 – 170
Unit: dB

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Band Integer Band
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA
Ch Integer Channel number
RSSI Float Carrier RSSI
Whole band (wideband) carrier power including thermal noise, co-carrier
and adjacent carrier interference, and noise generated in the receiver.
Unit: dBm
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Cell type Integer Cell type
0 = Neighbor
1 = Serving
Band Integer Band
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA
Ch Integer Channel number
Cell params Integer Cell parameters ID
ID Range: 0 – 127
RSCP Float PCCPCH RSCP
The received signal code power of a single code measured on
PCCPCH. See 3GPP TS 5.1.2 subclause 5.1.2.
Range: −116 – −20
Unit: dBm
Srxlev Float Srxlev criterion
Cell selection criterion S based on RSCP. See 3GPP TS 25.304
subclause 5.2.3 cell selection process.
Range: −107 – 90
Hrxlev Float Hrxlev criterion
Hierarchical cell criterion H based on RSCP. See 3GPP TS 25.304
subclause 5.2.6 cell reselection evaluation process.
Range: −115 – 90
Rrxlev Float Rrxlev criterion
Cell ranking criterion R based on RSCP. See 3GPP TS 25.304
subclause 5.2.6 cell reselection evaluation process.
Range: −191 – 25
Pathloss Float Pathloss
Range: 46 – 148
Unit: dB

Parameters for LTE |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Cell type Integer Cell type
0 = Serving
1 = Listed
2 = Detected
10 = SCell 1
11 = SCell 2
12 = SCell 3
13 = SCell 4
Band Integer Band
70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
80033 = LTE TDD 1900-1920 band 33
80034 = LTE TDD 2010-2025 band 34
80035 = LTE TDD 1850-1910 band 35
80036 = LTE TDD 1930-1990 band 36
80037 = LTE TDD 1910-1930 band 37
80038 = LTE TDD 2570-2620 band 38
80039 = LTE TDD 1880-1920 band 39
80040 = LTE TDD 2300-2400 band 40
80041 = LTE TDD 2496-2690 band 41
80042 = LTE TDD 3400-3600 band 42
80043 = LTE TDD 3600-3800 band 43
80044 = LTE TDD 703-803 band 44
80045 = LTE TDD 1447-1467 band 45
80046 = LTE TDD 5154-5925 band 46
80047 = LTE TDD 5855-5925 band 47
80048 = LTE TDD 3550-3700 band 48
80061 = LTE TDD 1447-1467 band 61
This is a non-standard LTE TDD band.
80062 = LTE TDD 1785-1805 band 62
This is a non-standard LTE TDD band.
80087 = LTE TDD 1447-1467 band 87
This is a non-standard LTE TDD band.
80088 = LTE TDD 1785-1805 band 88
This is a non-standard LTE TDD band.
89999 = LTE TDD
Ch Integer Channel number
PCI Integer Physical cell identity
Range: 0 – 503
RSSI Float E-UTRAN carrier RSSI
Whole band (wideband) carrier power including thermal noise, co-carrier
and adjacent carrier interference, and noise generated in the receiver.
Unit: dBm
RSRP Float RSRP
Reference signal received power is the linear average of the power
contributions of the resource elements that carry cell-specific reference
signals within the considered measurement frequency. This is the same
as NRSRP with NB-IoT. 3GPP TS 36.214 subclause 5.1.1.
Range: −160 – 0
Unit: dBm
RSRQ Float RSRQ
Reference signal received quality is the ratio N * RSRP / E-UTRA carrier
RSSI, where N is the number of resource blocks of the E-UTRA carrier
RSSI measurement bandwidth. The measurements in the numerator and
denominator are made over the same set of resource blocks. This is the
same as NRSRQ with NB-IoT. 3GPP TS 36.214 subclause 5.1.3.
Range: −35 – 0
Unit: dB
Timing Integer Cell frame timing
The unit of this parameter is Ts and one Ts is 1/30720000 seconds.
Range: 0 – 307199
Pathloss Float Pathloss
The reduction of the power density from the base station to the mobile
station.
Range: 0 – 170
Unit: dB
Srxlev Float Srxlev
Cell selection criterion S defines if the cell is suitable (greater than zero
in normal coverage conditions) for cell selection. See 3GPP 136.304
subclause 5.2.3.
Unit: dB

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Band Integer Band
100000 = cdmaOne 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
100001 = cdmaOne 1900 band 1
North American PCS 1900 MHz band.
100002 = cdmaOne 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
100003 = cdmaOne 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
100004 = cdmaOne 1800 Korean band 4
Korean PCS 1800 MHz band.
100005 = cdmaOne 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
100006 = cdmaOne 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
100007 = cdmaOne 700 band 7
North American cellular 700 MHz band.
100008 = cdmaOne 1800 band 8
1800 MHz band.
100009 = cdmaOne 900 band 9
900 MHz band.
100010 = cdmaOne 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
100011 = cdmaOne 400 PAMR band 11
European PAMR 400 MHz band.
100012 = cdmaOne 800 PAMR band 12
European PAMR 800 MHz band.
100013 = cdmaOne 2500 band 13
2.5 GHz IMT-2000 extension.
100014 = cdmaOne 1900 band 14
US PCS 1.9 GHz.
100015 = cdmaOne 2100 AWS band 15
100016 = cdmaOne 2500 band 16
US 2.5 GHz.
100018 = cdmaOne 700 public safety band 18
100019 = cdmaOne 700 lower band 19
100020 = cdmaOne 1500 L-band band 20
100021 = cdmaOne 2000 S-band band 21
109999 = cdmaOne
110000 = CDMA 1x 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
110001 = CDMA 1x 1900 band 1
North American PCS 1900 MHz band.
110002 = CDMA 1x 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
110003 = CDMA 1x 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
110004 = CDMA 1x 1800 Korean band 4
Korean PCS 1800 MHz band.
110005 = CDMA 1x 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
110006 = CDMA 1x 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
110007 = CDMA 1x 700 band 7
North American cellular 700 MHz band.
110008 = CDMA 1x 1800 band 8
1800 MHz band.
110009 = CDMA 1x 900 band 9
900 MHz band.
110010 = CDMA 1x 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
110011 = CDMA 1x 400 PAMR band 11
European PAMR 400 MHz band.
110012 = CDMA 1x 800 PAMR band 12
European PAMR 800 MHz band.
110013 = CDMA 1x 2500 band 13
2.5 GHz IMT-2000 extension.
110014 = CDMA 1x 1900 band 14
US PCS 1.9 GHz.
110015 = CDMA 1x 2100 AWS band 15
110016 = CDMA 1x 2500 band 16
US 2.5 GHz.
110018 = CDMA 1x 700 public safety band 18
110019 = CDMA 1x 700 lower band 19
110020 = CDMA 1x 1500 L-band band 20
110021 = CDMA 1x 2000 S-band band 21
119999 = CDMA 1x
Ch Integer Channel number
RX power Float RX power
Range: −120 – 30
Unit: dBm
RX0 power Float RX power antenna 0
Range: −120 – 30
Unit: dBm
RX1 power Float RX power antenna 1
Range: −120 – 30
Unit: dBm
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Set Integer Set information
0 = Active
1 = Candidate
2 = Neighbor
3 = Remainder
Band Integer Band
100000 = cdmaOne 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
100001 = cdmaOne 1900 band 1
North American PCS 1900 MHz band.
100002 = cdmaOne 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
100003 = cdmaOne 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
100004 = cdmaOne 1800 Korean band 4
Korean PCS 1800 MHz band.
100005 = cdmaOne 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
100006 = cdmaOne 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
100007 = cdmaOne 700 band 7
North American cellular 700 MHz band.
100008 = cdmaOne 1800 band 8
1800 MHz band.
100009 = cdmaOne 900 band 9
900 MHz band.
100010 = cdmaOne 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
100011 = cdmaOne 400 PAMR band 11
European PAMR 400 MHz band.
100012 = cdmaOne 800 PAMR band 12
European PAMR 800 MHz band.
100013 = cdmaOne 2500 band 13
2.5 GHz IMT-2000 extension.
100014 = cdmaOne 1900 band 14
US PCS 1.9 GHz.
100015 = cdmaOne 2100 AWS band 15
100016 = cdmaOne 2500 band 16
US 2.5 GHz.
100018 = cdmaOne 700 public safety band 18
100019 = cdmaOne 700 lower band 19
100020 = cdmaOne 1500 L-band band 20
100021 = cdmaOne 2000 S-band band 21
109999 = cdmaOne
110000 = CDMA 1x 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
110001 = CDMA 1x 1900 band 1
North American PCS 1900 MHz band.
110002 = CDMA 1x 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
110003 = CDMA 1x 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
110004 = CDMA 1x 1800 Korean band 4
Korean PCS 1800 MHz band.
110005 = CDMA 1x 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
110006 = CDMA 1x 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
110007 = CDMA 1x 700 band 7
North American cellular 700 MHz band.
110008 = CDMA 1x 1800 band 8
1800 MHz band.
110009 = CDMA 1x 900 band 9
900 MHz band.
110010 = CDMA 1x 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
110011 = CDMA 1x 400 PAMR band 11
European PAMR 400 MHz band.
110012 = CDMA 1x 800 PAMR band 12
European PAMR 800 MHz band.
110013 = CDMA 1x 2500 band 13
2.5 GHz IMT-2000 extension.
110014 = CDMA 1x 1900 band 14
US PCS 1.9 GHz.
110015 = CDMA 1x 2100 AWS band 15
110016 = CDMA 1x 2500 band 16
US 2.5 GHz.
110018 = CDMA 1x 700 public safety band 18
110019 = CDMA 1x 700 lower band 19
110020 = CDMA 1x 1500 L-band band 20
110021 = CDMA 1x 2000 S-band band 21
119999 = CDMA 1x
Ch Integer Channel number
PN Integer Pilot number
Range: 0 – 511
Ec/I0 Float Ec/I0
Range: −50 – 0
Unit: dB
Walsh Integer Walsh code
Walsh code used, available only for active set.
RSCP Float RSCP
The received signal code power of a single code.
Range: −150 – −20
Unit: dBm

Parameters for EVDO |Top|

Parameters for WLAN |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Cell type Integer Cell type
0 = Neighbor
1 = Serving
Band Integer WLAN band
200001 = WLAN 2.4 GHz
200002 = WLAN 3.6 GHz
200003 = WLAN 4.9 GHz
200004 = WLAN 5.0 GHz
209999 = WLAN
Quality Float WLAN quality
Range: 0 – 100
Unit: %
Channel Integer WLAN channel number
RSSI Float WLAN RSSI
Range: −110 – 20
Unit: dBm
SSID String WLAN service set identifier
BSSID String WLAN BSSID
This is same as MAC address. Logged format is hexadecimal bytes
separated by colon, for example 01:23:45:67:89:ab.
Security Integer WLAN security mode
0 = Open
1 = 802.1x
2 = WEP
3 = WPA-EAP
4 = WPA-PSK
5 = WPA2-EAP
6 = WPA2-PSK
Link speed Integer WLAN link speed
Minimum value: 0
Unit: Mbit/s
IP String WLAN IP address
The IP address for the WLAN access point.

Parameters for GAN WLAN |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Cell type Integer Cell type
0 = Neighbor
1 = Serving
Band Integer WLAN band
219999 = GAN WLAN
Quality Float WLAN quality
Range: 0 – 100
Unit: %
Channel Integer WLAN channel number
RSSI Float WLAN RSSI
Range: −110 – 20
Unit: dBm
SSID String WLAN service set identifier
BSSID String WLAN BSSID
This is same as MAC address. Logged format is hexadecimal bytes
separated by colon, for example 01:23:45:67:89:ab.

Parameters for WiMAX |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Cell type Integer Cell type
0 = Neighbor
1 = Serving
Band Integer Band
259999 = WiMAX
Frequency Float WiMAX frequency
Unit: MHz
Preamble Integer WiMAX preamble index
index Range: 0 – 113
BS ID String WiMAX base station ID
Six colon separated hex values.
RSSI Float WiMAX RSSI
Signal strength.
Range: −120 – 20
Unit: dBm
RSSI dev Float WiMAX RSSI deviation
Range: 0 – 50
Unit: dB
CINR Float WiMAX CINR
Channel to interference-noise ratio.
Range: −32 – 40
Unit: dB
CINR dev Float WiMAX CINR deviation
Channel to interference-noise ratio devitaion.
Range: 0 – 40
Unit: dB

Parameters for AMPS and NAMPS |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Cell type Integer Cell type
0 = Neighbor
1 = Serving
Band Integer Band
510800 = AMPS 800
519999 = AMPS
520800 = NAMPS 800
529999 = NAMPS
Ch Integer Channel number
SAT Integer Setup audio tone
Range: 0 – 6
RxLev Float RX level
Range: −120 – −10
Unit: dBm

Parameters for DAMPS |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Cell type Integer Cell type
0 = Neighbor
1 = Serving
Band Integer Band
530800 = DAMPS 800
531900 = DAMPS 1900
539999 = DAMPS
Ch Integer Channel number
DCC Integer Digital color code
Range: 0 – 255
RxLev Float RX level
Range: −120 – −10
Unit: dBm

Parameters for iDEN |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Cell type Integer Cell type
0 = Neighbor
1 = Serving
Band Integer Band
550001 = iDEN proprietary
550002 = iDEN 800 standard
550003 = iDEN 800 extended
550004 = iDEN 900
550005 = iDEN 1500
559999 = iDEN
Ch Integer Channel number
CC Integer Color code
Range: 0 – 15
Sync count Integer Sync count
Minimum value: 0
RxLev Float RX level
Range: −130 – −30
Unit: dBm
SQE Float SQE
Range: 0 – 50
Unit: dB
Foregound Integer Foregound
0 = No
1 = Yes

MIMO measurement (MIMOMEAS)

Event ID MIMOMEAS
Cellular systems UMTS FDD,LTE FDD,LTE TDD
Record state Always
Description Currently the recording interval is about two times per second. This measurement event
is currently only logged for serving cells.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for UMTS FDD |Top|

Parameters for LTE |Top|

Name Type Description
#Header params Integer Number of header parameters
#Measurements Integer Number of measurements
#Params/measurement Integer Number of parameters per measurement
Band Integer MIMO band
70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
80033 = LTE TDD 1900-1920 band 33
80034 = LTE TDD 2010-2025 band 34
80035 = LTE TDD 1850-1910 band 35
80036 = LTE TDD 1930-1990 band 36
80037 = LTE TDD 1910-1930 band 37
80038 = LTE TDD 2570-2620 band 38
80039 = LTE TDD 1880-1920 band 39
80040 = LTE TDD 2300-2400 band 40
80041 = LTE TDD 2496-2690 band 41
80042 = LTE TDD 3400-3600 band 42
80043 = LTE TDD 3600-3800 band 43
80044 = LTE TDD 703-803 band 44
80045 = LTE TDD 1447-1467 band 45
80046 = LTE TDD 5154-5925 band 46
80047 = LTE TDD 5855-5925 band 47
80048 = LTE TDD 3550-3700 band 48
80061 = LTE TDD 1447-1467 band 61
This is a non-standard LTE TDD band.
80062 = LTE TDD 1785-1805 band 62
This is a non-standard LTE TDD band.
80087 = LTE TDD 1447-1467 band 87
This is a non-standard LTE TDD band.
80088 = LTE TDD 1785-1805 band 88
This is a non-standard LTE TDD band.
89999 = LTE TDD
Ch Integer MIMO channel
PCI Integer Physical cell identity
Range: 0 – 503
Port Integer Antenna port
0 = Port 0
This is the same as TX0.
1 = Port 1
This is the same as TX1.
2 = Port 2
This is the same as TX2.
3 = Port 3
This is the same as TX3.
100 = TX0-RX0 channel
101 = TX0-RX1 channel
102 = TX0-RX2 channel
103 = TX0-RX3 channel
110 = TX1-RX0 channel
111 = TX1-RX1 channel
112 = TX1-RX2 channel
113 = TX1-RX3 channel
120 = TX2-RX0 channel
121 = TX2-RX1 channel
122 = TX2-RX2 channel
123 = TX2-RX3 channel
130 = TX3-RX0 channel
131 = TX3-RX1 channel
132 = TX3-RX2 channel
133 = TX3-RX3 channel
Cell type Integer MIMO cell type
0 = Serving
10 = SCell 1
11 = SCell 2
12 = SCell 3
13 = SCell 4
RSSI/P Float E-UTRAN carrier RSSI/antenna port
Whole band (wideband) carrier power including thermal noise, co-
carrier and adjacent carrier interference, and noise generated in
the receiver.
Unit: dBm
RSRQ/P Float RSRQ/antenna port
Reference signal received quality is the ratio N * RSRP / E-UTRA
carrier RSSI, where N is the number of resource blocks of the E-
UTRA carrier RSSI measurement bandwidth. The measurements
in the numerator and denominator are made over the same set of
resource blocks. This is the same as NRSRQ with NB-IoT. 3GPP
TS 36.214 subclause 5.1.3.
Range: −35 – 0
Unit: dB
RSRP/P Float RSRP/antenna port
Reference signal received power is the linear average of the
power contributions of the resource elements that carry cell-
specific reference signals within the considered measurement
frequency. This is the same as NRSRP with NB-IoT. 3GPP TS
36.214 subclause 5.1.1.
Range: −160 – 0
Unit: dBm
Timing/P Integer Cell frame timing/antenna port
The unit of this parameter is Ts and one Ts is 1/30720000
seconds.
Range: 0 – 307199

Adjacent Channel Measurement (ADJMEAS)

Event ID ADJMEAS
Cellular systems GSM
Record state Always
Description Recorded when parameter sample is received from the device.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM

Parameters for GSM |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
C/A ch Integer C/A center channel
C/A minimum Float C/A minimum
Carrier to adjacent channel ratio between center channel and the
strongest adjacent channel.
Range: −100 – 100
Unit: dB
RSSI Float C/A measurement RSSI
Signal strength for center channel.
Range: −120 – −10
Unit: dBm
C/A -1 Float C/A -1
The value of C/A -1 parameter is the ratio between center channel RSSI
and adjacent channel RSSI. The adjacent channel frequency is 200 kHz
lower than the frequency of the center channel.
Range: −100 – 100
Unit: dB
RSSI -1 Float C/A measurement RSSI -1
The RSSI value of the adjacent channel. The adjacent channel is 200
kHz lower than the frequency of the center channel.
Range: −120 – −10
Unit: dBm
C/A +1 Float C/A +1
The value of C/A +1 parameter is the ratio between center channel RSSI
and adjacent channel RSSI. The adjacent channel frequency is 200 kHz
higher than the frequency of the center channel.
Range: −100 – 100
Unit: dB
RSSI +1 Float C/A measurement RSSI +1
The RSSI value of the adjacent channel. The adjacent channel is 200
kHz higher than the frequency of the center channel.
Range: −120 – −10
Unit: dBm
C/A -2 Float C/A -2
The value of C/A -2 parameter is the ratio between center channel RSSI
and adjacent channel RSSI. The adjacent channel frequency is 400 kHz
lower than the frequency of the center channel.
Range: −100 – 100
Unit: dB
RSSI -2 Float C/A measurement RSSI -2
The RSSI value of the adjacent channel. The adjacent channel is 400
kHz lower than the frequency of the center channel.
Range: −120 – −10
Unit: dBm
C/A +2 Float C/A +2
The value of C/A +2 parameter is the ratio between center channel RSSI
and adjacent channel RSSI. The adjacent channel frequency is 400 kHz
higher than the frequency of the center channel.
Range: −100 – 100
Unit: dB
RSSI +2 Float C/A measurement RSSI +2
The RSSI value of the adjacent channel. The adjacent channel is 400
kHz higher than the frequency of the center channel.
Range: −120 – −10
Unit: dBm
RX quality (RXQ)
Event ID RXQ
Cellular systems GSM,DAMPS
Record state Call attempt and connection state
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result. Currently the maximum update frequency is about twice
per second.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for GSM |Parameters for DAMPS |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
53 = DAMPS

Parameters for GSM |Top|

Name Type Description
RXQ full Integer RX quality full
Quality value measured on every TDMA frame. Use this value
when DTX is inactive. See 3GPP TS 145.008 subclause 8.4.
RXQ sub Integer RX quality sub
Quality value measured over the subset of every TDMA frame.
Use this value when DTX is active. See 3GPP TS 145.008
subclause 8.4.

Parameters for DAMPS |Top|

Name Type Description
BER class Integer BER class
BER class value reported by mobile.
Range: 0 – 7

Packet channel RX quality (PRXQ)

Event ID PRXQ
Cellular systems GSM
Record state Attach and packet active state
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM

Parameters for GSM |Top|

Name Type Description
RXQ Integer Packet RX quality
See 3GPP TS 145.008 subclause 8.2.3.1. This parameter is
only recorded for GPRS.
Range: 0 – 7
C value Float C value
Received signal level of each paging block monitored by the
MS according to its current DRX mode and its paging group.
See 3GPP TS 145.008 subclause 10.2.3.1. This parameter is
only recorded for GPRS.
Range: −120 – −48
Unit: dBm
SIGN_VAR Float Signal variance
Average variance of signal level (C value). See 3GPP TS
145.008 subclause 10.2.3.1. This parameter is only recorded
for GPRS.
Range: 0 – 16
Unit: dBm2
#TSL results Integer Number of timeslot C/I results
TSL interf. Float Timeslot interference
Timeslot interference level relative to C value. See 3GPP TS
145.008 subclause 10.3. This parameter is only recorded for
GPRS.
Range: −28 – 0

Frame error rate (FER)

Event ID FER
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,cdmaOne,CDMA 1x
Record state Call connection state
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |Parameters for LTE |Parameters for cdmaOne and
CDMA 1x |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x

Parameters for GSM |Top|

Name Type Description
FER full Float Frame error rate full
This calculation assumes all 25 frames of the SACCH
multiframe have been sent. Just like RXQual Full, when DL
DTX is on, FER FULL will become invalid. This is because only
2 or 3 frames are sent when DL DTX is on.
Range: 0 – 100
Unit: %
FER sub Float Frame error rate sub
FER Sub is calculated as the ratio of erroneous frames to
number of sent frames. With EFR speech, only 2 out of the 25
are sent when DL DTX is on. With AMR speech, either 2 or 3
frames will be sent.
Range: 0 – 100
Unit: %
FER TCH Float Frame error rate TCH
This calculation concentrates only on TCH frames. It is also
more robust when DL DTX is changing. This is because it
concentrates on the ratio of TCH frame errors to TCH frames
sent.
Range: 0 – 100
Unit: %
DTX DL Integer DTX downlink
Defines if the DTX is used during the previous reporting period.
0 = DTX not in use
1 = DTX in use

Parameters for UMTS FDD |Top|

Name Type Description
FER Float Frame error rate
Currently this is only logged with EVS.
Range: 0 – 100
Unit: %

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
FER Float Frame error rate
Range: 0 – 100
Unit: %

Parameters for LTE |Top|

Name Type Description
FER Float Frame error rate
Calculated from the speech frames.
Range: 0 – 100
Unit: %

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
FER (dec) Float FER
Total (fundamental channel + supplemental channel) frame
error rate value reported by mobile.
Range: 0 – 100
Unit: %
FER F-FCH target Float FER F-FCH target
Range: 0 – 100
FER F-SCH0 target Float FER F-SCH0 target
Range: 0 – 100
FER F-DCCH target Float FER F-DCCH target
Range: 0 – 100
FER F-FCH Float FER F-FCH
Range: 0 – 100
FER F-SCH0 Float FER F-SCH0
Range: 0 – 100
FER F-DCCH Float FER F-DCCH
Range: 0 – 100

MS power (MSP)
Event ID MSP
Cellular systems GSM,DAMPS,AMPS
Record state Call connection and packet active state
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for GSM |Parameters for AMPS and NAMPS |Parameters for DAMPS |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
51 = AMPS
52 = NAMPS
53 = DAMPS

Parameters for GSM |Top|

Name Type Description
MSP Integer MS power level
Reported mobile station power level class. See 3GPP TS
45.005 subclause 4.1.
Range: 0 – 32
Band Integer Band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM
Parameters for AMPS and NAMPS |Top|
Name Type Description
MSP Integer MS power level
Reported mobile station power level class. See 3GPP TS
45.005 subclause 4.1.
Range: 0 – 32

Parameters for DAMPS |Top|

Name Type Description
MSP Integer MS power level
Reported mobile station power level class. See 3GPP TS
45.005 subclause 4.1.
Range: 0 – 32

Radio link timeout (RLT)

Event ID RLT
Cellular systems GSM
Record state Call connection state
Description Recorded when the radio link timeout changes.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for GSM |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM

Parameters for GSM |Top|

Name Type Description
RLT Integer Radiolink timeout
The counter used in determining when the radio link failure
condition is declared. The value of the counter is decreased by
one when SACCH message decoding fails. When decoding
succeeds, it is increased by two. If the value of the counter
drops to zero, the radio link failure condition is declared. See
3GPP TS 145.008 subclause 5.
Range: 0 – 64

Timing advance (TAD)

Event ID TAD
Cellular systems GSM,UMTS TD-SCDMA,LTE FDD,LTE TDD,DAMPS
Record state Always
Description Recorded when timing advance changes.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for GSM |Parameters for UMTS TD-SCDMA |Parameters for LTE |Parameters for DAMPS |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
53 = DAMPS

Parameters for GSM |Top|

Name Type Description
TA Integer Timing advance
Reported timing advance.
Range: 0 – 63

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
TA Float Timing advance
Range: −16 – 240
Unit: chip

Parameters for LTE |Top|

Name Type Description
TA Integer Timing advance
Timing advance is used to adjust uplink transmission timing in a
way that allows node B to receive transmissions from all UEs
simultanously. The timing advance is relative to downlink radio
frame received by UE. This parameter is the same as N_TA
parameter divided by 16. See 3GPP TS 36.213 subclause 4.2.3
and 3GPP TS 36.211 subclause 8.
Range: 0 – 1282
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell
index.
0 = PCell
Primary serving cell.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4

Parameters for DAMPS |Top|

Name Type Description
TAL Integer Timing alignment
Reported timing alignment.
Range: 0 – 30
Downlink signaling counter (DSC)
Event ID DSC
Cellular systems GSM
Record state Packet active state
Description Recorded when downlink signaling counter value changes.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for GSM |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM

Parameters for GSM |Top|

Name Type Description
DSC current Integer Downlink signaling counter current
The counter used in determining when the downlink signaling
failure condition is declared. Whenever the message is
decoded in the paging subchannel; if the message decoding is
successful, the DSC counter is increased by one; if the
message decoding fails, the DSC counter is decreased by four.
The downlink signaling failure condition is declared if the DSC
counter drops to zero or below. See 3GPP TS 145.008
subclause 6.5.
Range: 0 – 45
DSC max Integer Downlink signaling counter maximum
The maximum value of the DSC counter.
Range: 0 – 45

Bit error probability (BEP)

Event ID BEP
Cellular systems GSM
Record state Attach and packet active state
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result. Recorded only when EGPRS is used.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM

Parameters for GSM |Top|

Name Type Description
GMSK MEAN_BEP Integer BEP mean class GMSK
See 3GPP TS 145.008 subclause 8.2.3.2.
Range: 0 – 31
GMSK CV_BEP Integer BEP CV class GMSK
See 3GPP TS 145.008 subclause 8.2.3.2.
Range: 0 – 7
8-PSK MEAN_BEP Integer BEP mean class 8-PSK
See 3GPP TS 145.008 subclause 8.2.3.2.
Range: 0 – 31
8-PSK CV_BEP Integer BEP CV class 8-PSK
See 3GPP TS 145.008 subclause 8.2.3.2.
Range: 0 – 7

Carrier per interference (CI)

Event ID CI
Cellular systems GSM,UMTS TD-SCDMA,LTE FDD,LTE TDD,EVDO
Record state Always
Description Recorded when parameter sample is received from the device.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM |Parameters for UMTS TD-SCDMA |Parameters for LTE |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
12 = EVDO

Parameters for GSM |Top|

Name Type Description
C/I Float C/I average
C/I average is calculated over the reporting period. The C/I average is
the average of all C/I values per hopping channel (and timeslot with
GPRS) when this information is available. If C/I per hopping channel
or per timeslot is not available, the C/I average calculation method is
vendor specific.
Range: −10 – 40
Unit: dB
#TSL results Integer Number of timeslot C/I results
C/I per TSL Float C/I per timeslot
Separate C/I result for each dedicated GRPS timeslot. C/I calculation
method is vendor specific.
Range: −10 – 40
Unit: dB
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
ARFCN Integer Channel number
C/I Float C/I per hopping channel
Separate C/I result for each hopping channel. C/I calculation method
is vendor specific.
Range: −10 – 40
Unit: dB
RSSI Float RSSI per hopping channel
Whole band (wideband) carrier power including thermal noise, co-
carrier and adjacent carrier interference, and noise generated in the
receiver.
Unit: dBm

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
C/I Float PCCPCH C/I
Range: −45 – 40
Unit: dB

Parameters for LTE |Top|

Name Type Description
#Header params Integer Number of header parameters
SNR Float RS SNR
The calculation method for this parameter is device specific and can
change between the devices.
Range: −40 – 50
Unit: dB
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell index.
0 = PCell
Primary serving cell.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4
#Antennas Integer Number of antennas
#Params/antenna Integer Parameters per antenna
SNR/P Float RS SNR/antenna port
The calculation method for this parameter is device specific and can
change between the devices.
Range: −40 – 50
Unit: dB
Port Integer Antenna port or channel
0 = Port 0
This is the same as TX0.
1 = Port 1
This is the same as TX1.
2 = Port 2
This is the same as TX2.
3 = Port 3
This is the same as TX3.
100 = TX0-RX0 channel
101 = TX0-RX1 channel
102 = TX0-RX2 channel
103 = TX0-RX3 channel
110 = TX1-RX0 channel
111 = TX1-RX1 channel
112 = TX1-RX2 channel
113 = TX1-RX3 channel
120 = TX2-RX0 channel
121 = TX2-RX1 channel
122 = TX2-RX2 channel
123 = TX2-RX3 channel
130 = TX3-RX0 channel
131 = TX3-RX1 channel
132 = TX3-RX2 channel
133 = TX3-RX3 channel

Parameters for EVDO |Top|

Name Type Description
#Header params Integer Number of header parameters
#Act set PNs Integer Number of pilots in active set
Params/pilot Integer Number of parameters per pilot
PN Integer Pilot number
Range: 0 – 511
SINR Float Signal-to-interference and noise ratio
Range: −28 – 15
Unit: dB
MAC Index Integer MAC index
Range: 0 – 255
DRC cover Integer DRC cover
Cover used to transmit DRC.
Range: 0 – 7
RPC cell index Integer RPC cell index
Range: 0 – 15
DRC Lock Integer DRC lock
0 = Unlocked
1 = Locked
RAB Integer Reverse activity bit
Range: 0 – 1
Ch Integer Channel number
Slot FRAB Integer Slot FRAB
Slot fast reverse activity bit.
Slot QRAB Integer Slot QRAB
Slot quick reverse activity bit.
0 = Unloaded
1 = Loaded

TX power control (TXPC)

Event ID TXPC
Cellular systems UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,cdmaOne,CDMA
1x,EVDO,TETRA,WiMAX
Record state Always
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for TETRA |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |Parameters for LTE |Parameters for cdmaOne and
CDMA 1x |Parameters for EVDO |Parameters for WiMAX |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO
25 = WiMAX

Parameters for TETRA |Top|

Name Type Description
TX power Float TX power
MS transit power.
Range: 15 – 45
Unit: dBm
Pwr ctrl alg. Integer TX power control algorithm
Range: 0 – 1
TX power change Float TX power change
Range: −30 – 30
Unit: dBm

Parameters for UMTS FDD |Top|

Name Type Description
TX power Float TX power
The total UE transmitted power on one carrier. See 3GPP TS 125.215
subclause 5.1.7.
Range: −120 – 30
Unit: dBm
Pwr ctrl alg. Integer TX power control algorithm
0 = Power control algorithm 0
1 = Power control algorithm 1
Pwr ctrl step Float TX power control step size
Range: 1 – 2
Unit: dB
Compr. mode Integer Compressed mode
0 = No compressed mode
1 = Compressed mode
#UL pwr up Integer Number of "UL power up" commands
Number of received "UL power up" commands (BTS to mobile).
#UL pwr down Integer Number of "UL power down" commands
Number of received "UL power down" commands (BTS to mobile).
UL pwr up % Float Percentage of "UL power up" commands
In percentage the number of "UL power up" commands from all
commands. If this value is 100%, all commands request to increase
power.
Range: 0 – 100

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
TX power Float TX power
Range: −99 – 99
Unit: dBm
Pwr ctrl step Float TX power control step size
Range: 1 – 3
Unit: dB
#UL pwr up Integer Number of "UL power up" commands
Number of received "UL power up" commands (BTS to mobile).
#UL pwr down Integer Number of "UL power down" commands
Number of received "UL power down" commands (BTS to mobile).
UL pwr up % Float Percentage of "UL power up" commands
In percentage the number of "UL power up" commands from all
commands. If this value is 100%, all commands request to increase
power.
Range: 0 – 100

Parameters for LTE |Top|

Name Type Description
PUSCH TX power Float TX power PUSCH
The average transmit power for PUSCH calculated over the reporting
period. With NB-IoT this is same as NPUSCH. See 3GPP TS 36.213
subclause 5.1.1.1.
Range: −50 – 40
Unit: dBm
PUCCH TX power Float TX power PUCCH
The average transmit power for PUCCH calculated over the reporting
period. See 3GPP TS 36.213 subclause 5.1.2.1.
Range: −50 – 40
Unit: dBm
PH Float TX power headroom (PUSCH)
The average UE power headroom reported from the same reporting
period as PUSCH TX power. See 3GPP TS 36.213 subclause 5.1.1.2.
Range: −23 – 100
Unit: dB
f(i) Float TX power PUSCH adjustment
The average PUSCH power control adjustment during the last
reporting period. Same as f(i) parameter in 3GPP TS 36.213
subclause 5.1.1.1.
Unit: dB
g(i) Float TX power PUCCH adjustment
The average PUCCH power control adjustment during the last
reporting period. Same as g(i) parameter in 3GPP TS 36.213
subclause 5.1.2.1.
Unit: dB
#PUSCH TPCs Integer Number of PUSCH TPCs
#Params/PUSCH Integer Number of parameters per PUSCH TPC
TPC
#PUSCH TPC Integer PUSCH TPC count
The number of times this TPC command is received since the
previous report.
Minimum value: 0
PUSCH TPC Float PUSCH TPC
This is the same as delta_PUSCH. See 3GPP TS 136.213 subclause
5.1.1.
Range: −4 – 4
Unit: dB
#PUCCH TPCs Integer Number of PUCCH TPCs
#Params/PUCCH Integer Number of parameters per PUCCH TPC
TPC
#PUCCH TPC Integer PUCCH TPC count
The number of times this TPC command is received since the
previous report.
Minimum value: 0
PUCCH TPC Float PUCCH TPC
This is the same as delta_PUCCH. See 3GPP TS 136.123 subclause
5.1.2.
Range: −1 – 3
Unit: dB
SRS TX power Float TX power SRS
The average transmit power for SRS calculated over the reporting
period. See 3GPP TS 36.211 subclause 5.5.3 and 36.213 subclause
5.1.3.
Range: −50 – 40
M_SRS Integer SRS TX bandwidth
Bandwidth of sounding reference signal (SRS) in physical resource
blocks. This is same as M_SRS parameter. See 3GPP TS 36.211
subclause 5.5.3 and 36.213 subclause 5.1.3.
Range: 4 – 96
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell index.
0 = PCell
Primary serving cell.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
TX power Float TX power
Range: −99 – 99
Unit: dBm
Pwr ctrl step Integer TX power control step size
0 = 1.0
1 = 0.5
2 = 0.25
Unit: dB
#UL pwr up Integer Number of "UL power up" commands
Number of received "UL power up" commands (BTS to mobile).
#UL pwr down Integer Number of "UL power down" commands
Number of received "UL power down" commands (BTS to mobile).
UL pwr up % Float Percentage of "UL power up" commands
In percentage the number of "UL power up" commands from all
commands. If this value is 100%, all commands request to increase
power.
Range: 0 – 100
TX adjust Float Closed loop adjustment
Unit: dB
TX pwr limit Float Upper limit on TX power
Unit: dBm
Max power limited Integer Max power limited
Reports whether max power protection is in effect.
0 = Not applicable
1 = Not in effect
2 = In effect
R-FCH/R-PICH Float R-FCH to pilot ratio
Unit: dB
R-SCH0/R-PICH Float R-SCH0 to pilot ratio
Unit: dB
R-SCH1/R-PICH Float R-SCH1 to pilot ratio
Unit: dB
R-DCCH/R-PICH Float R-DCCH to pilot ratio
Unit: dB

Parameters for EVDO |Top|

Name Type Description
TX power Float TX power
Range: −99 – 99
Unit: dBm
#UL pwr up Integer Number of "UL power up" commands
Number of received "UL power up" commands (BTS to mobile).
#UL pwr hold Integer Number of "UL power hold" commands
Number of received "UL power hold" commands (BTS to mobile).
#UL pwr down Integer Number of "UL power down" commands
Number of received "UL power down" commands (BTS to mobile).
UL pwr up % Float Percentage of "UL power up" commands
In percentage the number of "UL power up" commands from all
commands. If this value is 100%, all commands request to increase
power.
Range: 0 – 100
TX adjust Float Closed loop adjustment
Unit: dB
TX Pilot Float TX pilot power
Range: −99 – 99
Unit: dBm
TX open loop Float TX open loop power
power TX power determined by the open loop adjust mechanism.
Range: −99 – 99
Unit: dBm
DRC/pilot Float DRC channel to pilot ratio
Unit: dB
ACK/pilot Float ACK channel to pilot ratio
Unit: dB
Data/pilot Float Data channel to pilot ratio
Unit: dB
PA max Float PA max
Maximum recommended headroom available (Rev A). The mobile
station indicates the available Power Amplifier (PA) headroom to the
access network. The access network can assign carriers based on
the mobile stations available power amplifier headroom.
Unit: dB
DRC lock period Integer DRC lock period
DRC lock period indicates which RPC bits are 'hold' (Rel 0).
8 = 8 slots
16 = 16 slots
TX throttle Float TX throttle
TX throttle indicates how often TX channel gains are being throttled
during the previous reporting period (Rev A).
Range: 0 – 100
Unit: %
TX max power Float TX max power usage
usage Indicates how often TX AGC was at maximum power during the
previous reporting period.
Range: 0 – 100
Unit: %
TX min power Float TX min power usage
usage Indicates how often TX AGC was at minimum power during the
previous reporting period.
Range: 0 – 100
Unit: %
Transmission mode Integer Transmission mode
Indicates the transmission mode of the data packets being
transmitted (Rev A).
0 = HiCap
1 = LoLat
PS Integer Physical layer packet size
Minimum value: 0
Unit: bit
RRI/pilot Float RRI channel to pilot ratio (Rev A).
Unit: dB
DSC/pilot Float DSC channel to pilot ratio (Rev A).
Unit: dB
AUX/data Float AUX channel to data channel ratio
Unit: dB
#Carriers Integer Number of EVDO carriers
#Params/carrier Integer Number of parameters per EVDO carrier
Ch Integer Channel number
TX power/Ch Float TX power/Channel
Range: −99 – 99
Unit: dBm
TX Pilot/Ch Float TX pilot power/Channel
Range: −99 – 99
Unit: dBm
TX adjust/Ch Float Closed loop adjustment/Channel
Unit: dB
Power limited/Ch Integer Power limited/Channel
0 = No
1 = Yes
Power Integer Power amplifier/Channel
amplifier/Ch 0 = Off
1 = On
TX OL power/Ch Float TX open loop power/Channel
Range: −128 – 127
Unit: dBm
TX T2P Float TX T2P
Range: −100 – 100
Unit: dB

Parameters for WiMAX |Top|

Name Type Description
TX power Float WiMAX TX power
MS transmit power.
Range: −99 – 99
Unit: dBm
TX ref. power Float WiMAX TX reference power
Range: −99 – 99
Unit: dBm
TX power Float WiMAX TX power headroom
headroom Range: 0 – 100
Unit: dBm
TX power BS offset Float WiMAX TX power BS offset
Range: −99 – 99
Unit: dB
TX power IrMax Float WiMAX initial ranging max TX power
Range: −99 – 99
Unit: dBm
BS EIRP Float WiMAX BS EIRP
Base station effective isotrophic radiated power.
Range: −99 – 99
Unit: dBm
BS N+I Float WiMAX BS noise + interference level
Range: −128 – −1
Unit: dBm
RX power control (RXPC)
Event ID RXPC
Cellular systems UMTS FDD,UMTS TD-SCDMA,cdmaOne,CDMA 1x
Record state Always
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |Parameters for cdmaOne and CDMA 1x |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA
10 = cdmaOne
11 = CDMA 1x

Parameters for UMTS FDD |Top|

Name Type Description
SIR target Float Signal-to-interference ratio target
Current target SIR at update time.
Range: −32 – 30
Unit: dB
SIR Float Signal-to-interference ratio
See 3GPP TS 125.215 subclause 5.2.2.
Range: −32 – 30
Unit: dB
BS div. state Integer BS diversity state
Base Station TX closed loop diversity state.
0 = Not active
1 = Closed loop mode 1
2 = Closed loop mode 2
#DL pwr up Integer Number of "DL power up" commands
Number of sent "DL power up" commands (mobile to BTS).
#DL pwr down Integer Number of "DL power down" commands
Number of sent "DL power down" commands (mobile to BTS).
DL pwr up % Float Percentage of "DL power up" commands
In percentage the number of "DL power up" commands from all
commands. If this value is 100%, all commands request to increase
power.
Range: 0 – 100
DPC mode Integer DL Power control mode
0 = Unique TPC command in each slot
1 = Same TPC command repeated over three slots

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
#Header Integer Number of header parameters
params
SIR target Float Signal-to-interference ratio target
Current target SIR at update time.
Range: −32 – 30
Unit: dB
SIR Float Signal-to-interference ratio
See 3GPP TS 125.215 subclause 5.2.2.
Range: −32 – 30
Unit: dB
#DL pwr up Integer Number of "DL power up" commands
Number of sent "DL power up" commands (mobile to BTS).
#DL pwr Integer Number of "DL power down" commands
down Number of sent "DL power down" commands (mobile to BTS).
DL pwr up % Float Percentage of "DL power up" commands
In percentage the number of "DL power up" commands from all
commands. If this value is 100%, all commands request to increase
power.
Range: 0 – 100
#Timeslots Integer Number of timeslots
#Params/TSL Integer Number of parameters per timeslot
TSL Integer Timeslot
Range: 0 – 6
ISCP Float Timeslot ISCP
Interference signal code power.
Range: −116 – −25
Unit: dB
RSCP Float DPCH RSCP
DPCH received signal code power.
Range: −116 – −25
Unit: dB
SIR Float DPCH SIR
DPCH Signal-to-interference ratio.
Range: −35 – 40
Unit: dB

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
FPC mode Integer Forward power control operation mode indicator
Forward Power Control (FPC) is used by the Mobile Station (MS) to
control the power levels on a traffic channel to optimize the Frame Error
Rate (FER). There are several different FPC modes explained in 3GPP2
C.S0011-E.
Range: 0 – 7
FPC subchannel Integer Forward power control subchannel indicator
Subchannel indicator is set by the BTS to indicate to a MS if the primary
inner loop estimation should be preformed on the received F-FCH or F-
DCH.
0 = F-FCH setpoint
1 = F-DCCH setpoint
FPC gain Float Forward power control subchannel gain
See 3GPP2 C.S0005-F subclause 3.7.2.3.2.21.
Unit: dB
#DL pwr up Integer Number of "DL power up" commands
Number of sent "DL power up" commands (mobile to BTS).
#DL pwr down Integer Number of "DL power down" commands
Number of sent "DL power down" commands (mobile to BTS).
DL pwr up % Float Percentage of "DL power up" commands
In percentage the number of "DL power up" commands from all
commands. If this value is 100%, all commands request to increase
power.
Range: 0 – 100
F-FCH cur. sp Float F-FCH current setpoint
Unit: dB
F-FCH min. sp Float F-FCH minimum setpoint
Unit: dB
F-FCH max. sp Float F-FCH maximum setpoint
Unit: dB
F-SCH0 cur. sp Float F-SCH0 current setpoint
Unit: dB
F-SCH0 min. sp Float F-SCH0 minimum setpoint
Unit: dB
F-SCH0 max. sp Float F-SCH0 maximum setpoint
Unit: dB
F-SCH1 cur. sp Float F-SCH1 current setpoint
Unit: dB
F-SCH1 min. sp Float F-SCH1 minimum setpoint
Unit: dB
F-SCH1 max. sp Float F-SCH1 maximum setpoint
Unit: dB
F-DCCH cur. sp Float F-DCCH current setpoint
Unit: dB
F-DCCH min. sp Float F-DCCH minimum setpoint
Unit: dB
F-DCCH max. Float F-DCCH maximum setpoint
sp Unit: dB

Bit error rate (BER)

Event ID BER
Cellular systems TETRA,UMTS FDD
Record state Always
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for TETRA |Parameters for UMTS FDD |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
2 = TETRA
5 = UMTS FDD

Parameters for TETRA |Top|

Name Type Description
BER Float BER
Bit error rate that is calculated with training sequence algorithm.
Range: 0 – 100
Unit: %

Parameters for UMTS FDD |Top|

Name Type Description
Pilot BER Float BER pilot bit
Bit error rate of downlink DPCCH (dedicated physical control
channel) pilot bits.
Range: 0 – 100
Unit: %
TFCI BER Float BER TFCI
Estimated raw BER before channel coding based on TFCI bits.
Range: 0 – 100
Unit: %

Physical channel throughput (PHRATE)

Event ID PHRATE
Cellular systems UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,cdmaOne,CDMA 1x,EVDO
Record state Always
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result. Separate measurement event is logged for each serving
cell with LTE.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD and UMTS TD-SCDMA |Parameters for LTE |Parameters for LTE PBCH |Parameters for LTE PDSCH and
NPDSCH |Parameters for LTE PUSCH and NPUSCH |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
12 = EVDO

Parameters for UMTS FDD and UMTS TD-SCDMA |Top|

Name Type Description
DPDCH rate UL Integer Uplink DPDCH bitrate
Minimum value: 0
Unit: bit/s

Parameters for LTE |Top|

Name Type Description
Ph. ch. type Integer Physical channel type
1 = PBCH
2 = PDSCH or NPDSCH
3 = PUSCH or NPUSCH

Parameters for LTE PBCH |Top|

Name Type Description
PBCH block rate Integer PBCH block rate
Minimum value: 0
PBCH BLER Float PBCH BLER
Physical Downlink Shared Channel (PDSCH) block error rate. Block
error rate (BLER) is the number of received erroneous blocks per total
number of sent blocks. Erroneous blocks are found with the cyclic
redundancy check (CRC), see 3GPP TS 34.121-1 subclause F.6.1.1.
Range: 0 – 100
Unit: %
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell index.
0 = PCell
Primary serving cell.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4

Parameters for LTE PDSCH and NPDSCH |Top|

Name Type Description
PDSCH bitrate 0 Integer PDSCH throughput for codeword 0
Minimum value: 0
Unit: bit/s
PDSCH bitrate 1 Integer PDSCH throughput for codeword 1
Minimum value: 0
Unit: bit/s
PDSCH block rate Integer PDSCH block rate
The number of received transport blocks since the last report
including TBs with CRC failure.
Minimum value: 0
PDSCH BLER Float PDSCH BLER
The ratio of transport blocks with CRC check accepted to all received
TBs.
Range: 0 – 100
Unit: %
Sch bitrate/PRB Integer PDSCH scheduled throughput/PRB
Scheduled throughput per PRB is the average throughput per PRB
over the TTIs where PRB resources are allocated. This is calculated
by summing PDSCH throughput per PRB during the reporting period
and this is divided by number of allocated PRBs during the reporting
period.
Minimum value: 0
Unit: bit/s
PDSCH bitrate Integer PDSCH throughput
The throughput is calculated from all received transport blocks
including TBs with CRC failure.
Minimum value: 0
Unit: bit/s
PDCCH BLER est. Float PDCCH BLER estimation
This parameter estimates PDCCH BLER by calculating number of
undetected and missed downlink grants. The parameter does not
contain all possible PDCCH errors so it is more of an indicative
rathern than an absolute ratio of errors in the PDCCH channel. Note
that the exact calculation method of the parameter can change in the
future.
Range: 0 – 100
Unit: %
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell index.
0 = PCell
Primary serving cell.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4
CFI 1 Float PDCCH CFI 1 percentage
Defines how many percent of subframes are using CFI 1 meaning
that 1 symbol (2 when 1.4 MHz bandwidth) is allocated for PDCCH.
See 3GPP TS 36.212 subclause 5.3.4.
Range: 0 – 100
Unit: %
CFI 2 Float PDCCH CFI 2 percentage
Defines how many percent of subframes are using CFI 2 meaning
that 2 symbols (3 when 1.4 MHz bandwidth) are allocated for
PDCCH. See 3GPP TS 36.212 subclause 5.3.4.
Range: 0 – 100
Unit: %
CFI 3 Float PDCCH CFI 3 percentage
Defines how many percent of subframes are using CFI 3 meaning
that 3 symbols (4 when 1.4 MHz bandwidth) are allocated for
PDCCH. See 3GPP TS 36.212 subclause 5.3.4.
Range: 0 – 100
Unit: %
PDSCH BLER 0 Float PDSCH BLER for codeword 0
Range: 0 – 100
Unit: %
PDSCH BLER 1 Float PDSCH BLER for codeword 1
Range: 0 – 100
Unit: %
#PDCCH channel Integer Number of PDCCH channel formats
formats
#Params/PDCCH Integer Number of parameters per PDCCH channel format
channel format
PDCCH format Integer PDCCH format count
count Defines how many times PDCCH format has been used during the
previous reporting period.
PDCCH format Integer PDCCH format
PDCCH format defines how much resources are allocated for PDCCH
channel. See more 3GPP TS 36.211 subclause 6.8.1.
0 = PDCCH format 0
Same as aggregation level 1.
1 = PDCCH format 1
Same as aggregation level 2.
2 = PDCCH format 2
Same as aggregation level 4.
3 = PDCCH format 3
Same as aggregation level 8.

Parameters for LTE PUSCH and NPUSCH |Top|

Name Type Description
PUSCH bitrate Integer PUSCH throughput
This is calculated from all transmitted transport blocks including TBs
that are not delivered succesfully or are delivered redundantly.
Minimum value: 0
Unit: bit/s
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell index.
0 = PCell
Primary serving cell.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4

Parameters for EVDO |Top|

Name Type Description
Ph rate UL Integer Physical layer throughput UL
Minimum value: 0
Unit: bit/s
Ph rate DL Integer Physical layer throughput DL
Minimum value: 0
Unit: bit/s
SU rate DL Integer Single-user throughput DL
Minimum value: 0
Unit: bit/s
MU rate DL Integer Multi-user throughput DL
Minimum value: 0
Unit: bit/s
PER SU Float PER single-user
Range: 0 – 100
Unit: %
PER MU Float PER multi-user
Range: 0 – 100
Unit: %
PER Float PER reverse
Range: 0 – 100
Unit: %
#Carriers Integer Number of EVDO carriers
#Params/carrier Integer Number of parameters per EVDO carrier
Ch Integer Channel number
Ph rate UL/Ch Integer Physical layer throughput UL per carrier
Minimum value: 0
Unit: bit/s
Ph rate DL/Ch Integer Physical layer throughput DL per carrier
Minimum value: 0
Unit: bit/s
SU rate DL/Ch Integer Single-user throughput DL per carrier
Minimum value: 0
Unit: bit/s
MU rate DL/Ch Integer Multi-user throughput DL per carrier
Minimum value: 0
Unit: bit/s

Downlink control information (DCI)

Event ID DCI
Cellular systems LTE FDD,LTE TDD
Record state Always
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result. Separate measurement event is logged for each serving
cell with LTE. Currently this parameter is only logged for NB-IoT.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
Parameters for LTE |Top|
Name Type Description
#Header Integer Number of header parameters
params
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell index.
0 = PCell
Primary serving cell.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4
#DCIs Integer Number of DCIs
#Params/DCI Integer Number of parameters per DCI
DCI format Integer DCI format
Currently only NB-IoT is supported.
2000 = N0
2010 = N1
DCI count Integer DCI count
Minimum value: 0
DCI Integer DCI repetitions
repetitions Range: 1 – 2048

WLAN throughput (WLANRATE)

Event ID WLANRATE
Cellular systems GAN WLAN
Record state Always
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor
|Parameters |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
21 = GAN WLAN
WLAN rate UL Integer WLAN throughput uplink
WLAN rate DL Integer WLAN throughput downlink
PPP layer throughput (PPPRATE)
Event ID PPPRATE
Cellular systems All
Record state Packet active
Description Recorded when data link layer data is received or transmitted. Currently minimum time
interval between two measurement events is one second. If data has not been
transmitted or received in two seconds, a zero-value measurement event is recorded.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
PPP rate UL Integer PPP throughput uplink
The value of this parameter is calculated based on the SDUs
that are successfully transferred through the PPP layer. Missing
and erroneous PPP packets are excluded from the throughput
calculation. With Nemo Handy, the PPP layer is not used and
the reported value is TCP/IP throughput instead. With Nemo
Outdoor, the PPP layer carries the IP layer in order to produce
a good approximation of TCP/IP throughput. However, this
approximation is not exact. Also note that with Nemo Outdoor
the PPP throughput is only reported when the packet session is
activated using the dialup interface.
Minimum value: 0
Unit: bit/s
PPP rate DL Integer PPP throughput downlink
The value of this parameter is calculated based on the SDUs
that are successfully transferred through the PPP layer. Missing
and erroneous PPP packets are excluded from the throughput
calculation. With Nemo Handy, the PPP layer is not used and
the reported value is TCP/IP throughput instead. With Nemo
Outdoor, the PPP layer carries the IP layer in order to produce
a good approximation of TCP/IP throughput. However, this
approximation is not exact. Also note that with Nemo Outdoor
the PPP throughput is only reported when the packet session is
activated using the dialup interface.
Minimum value: 0
Unit: bit/s
Sent PPP bytes Integer Transferred PPP bytes uplink
Cumulative amount of data transferred in uplink direction during
the packet session.
Minimum value: 0
Unit: byte
Recv. PPP bytes Integer Transferred PPP bytes downlink
Cumulative amount of data transferred in downlink direction
during the packet session.
Minimum value: 0
Unit: byte

RLP layer throughput (RLPRATE)

Event ID RLPRATE
Cellular systems cdmaOne,CDMA 1x,EVDO
Record state Packet active
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
10 = cdmaOne
11 = CDMA 1x
12 = EVDO
RLP rev. rate Integer RLP reverse user throughput
Minimum value: 0
Unit: bit/s
RLP for. rate Integer RLP forward user throughput
Minimum value: 0
Unit: bit/s
RLP rev. retr. rate Float RLP reverse retransmission rate
Range: 0 – 100
Unit: %
RLP fwd. retr. rate Float RLP forward retransmission rate
Range: 0 – 100
Unit: %
RLP err. UL Float RLP error rate uplink
Range: 0 – 100
Unit: %
RLP err. DL Float RLP error rate downlink
Range: 0 – 100
Unit: %

RLP statistics (RLPSTATISTICS)

Event ID RLPSTATISTICS
Cellular systems cdmaOne,CDMA 1x,EVDO
Record state Packet active
Description Recorded when parameter sample is received from the device.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for cdmaOne and CDMA 1x |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
10 = cdmaOne
11 = CDMA 1x
12 = EVDO

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
Service ID Integer Service ID
Resets Integer Number of resets
Aborts Integer Number of NAK aborts
Last RTT Integer Last RTT
Number of 20-ms time frames for the last round-trip time
measurement.
Unit: frame
Block of bytes used Integer Block of bytes used
0 = Not received
1 = Specified NAK scheme
2 = Specified RTT
3 = Specified RTT and NAK scheme
RX NAKs Integer Received NAKs
Total number of negative acknowledgement frames received.
Unit: frame
Largest Con. Erasures Integer Largest block of consecutive erasures
Retrans. not found Integer Number of retransmitted frames not found
Unit: frame
RX retrans. frames Integer Received retransmitted frames
Unit: frame
RX idle frames Integer Received idle frames
Unit: frame
RX fill frames Integer Received fill frames
Unit: frame
RX blank frames Integer Received blank frames
Unit: frame
RX null frames Integer Received null frames
Unit: frame
RX new frames Integer Received new data frames
Unit: frame
RX fund. frames Integer Received fundamental data frames
Unit: frame
RX bytes Integer Received bytes
Minimum value: 0
Unit: byte
RX RLP erasures Integer Received RLP erasures
Unit: frame
RX MUX erasures Integer Received multiplexer erasures
Unit: frame
TX NAKs Integer Transmitted NAKs
Unit: frame
TX retrans. frames Integer Transmitted retransmitted frames
Unit: frame
TX idle frames Integer Transmitted idle frames
Unit: frame
TX new frames Integer Transmitted new data frames
Unit: frame
TX fund. frames Integer Transmitted fundamental data frames
Unit: frame
TX bytes Integer Transmitted bytes
Minimum value: 0
Unit: byte

Parameters for EVDO |Top|

Name Type Description
Service ID Integer Service ID
Identifies RLP service.
RX NAKs Integer Received NAKs
RX NAKs in bytes Integer Received NAKs in bytes
Retrans. not found Integer Number of retransmitted frames not found
RX dup. bytes Integer Received duplice bytes
ReRX bytes Integer Received retransmitted bytes
RX new bytes Integer Received new data bytes
RX bytes Integer Received bytes
TX NAKs Integer Transmitted NAKs
TX NAKs in bytes Integer Transmitted NAKs in bytes
ReTX bytes Integer Retransmitted bytes
TX new bytes Integer Transmitted new data bytes
TX bytes Integer Transmitted bytes
NAK timeouts Integer NAK timeouts
Contains NAK timeouts and aborts.
Reset count Integer Reset count
Total resets that have occurred, initiated either by the AN or the
AT.
AT reset request count Integer Resets requested by the AT
AN reset ack count Integer Reset ACKs received from the AN
AN reset request count Integer Resets requested by the AN
RX frames Integer Received frames
RX new frames Integer Received new frames
ReRX frames Integer Received retransmitted frames
RX frames first Integer Received frames with first data unit
RX frames last Integer Received frames with last data unit
TX frames Integer Transmitted frames
TX new frames Integer Transmitted new frames
ReTX frames Integer Retransmitted frames
TX frames first Integer Transmitted frames with first data unit
TX frames last Integer Transmitted frames with last data unit
Link flow ID Integer Link flow ID
Route number Integer Route number
Flow protocol Integer Flow protocol
Route protocol Integer Route protocol
Packet stream Integer Packet stream
Whether link flow is packet-based.
0 = Non-packet based
1 = Packet based
Sequence type Integer Sequence type
Whether link flow is doing segment-based sequencing.
0 = Non-segment based sequencing
1 = Segment based sequencing

Measurement event information (MEI)

Event ID MEI
Cellular systems UMTS FDD,UMTS TD-SCDMA
Record state Always
Description Recorded when a UMTS measurement event is transmitted to the network based on
signaling messages.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for UMTS FDD |Top|

Name Type Description
Measurement event Integer Measurement event
1 = Event 1A
A primary CPICH enters the Reporting Range (FDD only).
2 = Event 1B
A primary CPICH leaves the Reporting Range (FDD only).
3 = Event 1C
A non-active Primary CPICH becomes better than an active
Primary CPICH (FDD only).
4 = Event 1D
Change of best cell (FDD only).
5 = Event 1E
A primary CPICH becomes better than an absolute
threshold (FDD only).
6 = Event 1F
A primary CPICH becomes worse than an absolute
threshold (FDD only).
7 = Event 1G
Change of best cell (TDD only).
8 = Event 1H
Timeslot ISCP below a certain threshold (TDD only).
9 = Event 1I
Timeslot ISCP above a certain threshold (TDD only).
10 = Event 1J
A non-active E-DCH but active DCH Primary CPICH
becomes better than an active E-DCH Primary CPICH
(FDD only).
21 = Event 2A
Change of best frequency.
22 = Event 2B
The estimated quality of the currently used frequency is
below a certain threshold and the estimated quality of a
non-used frequency is above a certain threshold.
23 = Event 2C
The estimated quality of a non-used frequency is above a
certain threshold.
24 = Event 2D
The estimated quality of the currently used frequency is
below a certain threshold.
25 = Event 2E
The estimated quality of a non-used frequency is below a
certain threshold.
26 = Event 2F
The estimated quality of the currently used frequency is
above a certain threshold.
31 = Event 3A
The estimated quality of the currently used UTRAN
frequency is below a certain threshold and the estimated
quality of the other system is above a certain threshold.
32 = Event 3B
The estimated quality of other system is below a certain
threshold.
33 = Event 3C
The estimated quality of other system is above a certain
threshold.
34 = Event 3D
Change of best cell in other system.
41 = Event 4A
Transport Channel Traffic Volume (3GPP TS 25.321)
exceeds an absolute threshold.
42 = Event 4B
Transport Channel Traffic Volume (3GPP TS 25.321)
becomes smaller than an absolute threshold.
51 = Event 5A
Number of bad CRCs on a certain transport channel
exceeds a threshold.
61 = Event 6A
The UE Transmitted Power becomes larger than an
absolute threshold.
62 = Event 6B
The UE Transmitted Power becomes less than an absolute
threshold.
63 = Event 6C
The UE Transmitted Power reaches its minimum value.
64 = Event 6D
The UE Transmitted Power reaches its maximum value.
65 = Event 6E
The UE RSSI reaches the UEs dynamic receiver range.
66 = Event 6F
The UE Rx-Tx time difference for a RL included in the
active set becomes larger than an absolute threshold (FDD
only). The time difference indicated by T_ADV becomes
larger than an absolute threshold (TD-SCDMA only).
67 = Event 6G
The UE Rx-Tx time difference for a RL included in the
active set becomes less than an absolute threshold.
71 = Event 7A
The UE position changes more than an absolute threshold.
72 = Event 7B
SFN-SFN measurement changes more than an absolute
threshold.
73 = Event 7C
GPS time and SFN time have drifted apart more than an
absolute threshold.

Parameters for UMTS TD-SCDMA |Top|

Parameters for LTE |Top|

Name Type Description
Measurement event Integer Measurement event
See 3GPP TS 136.331 subclause 5.5.4.
1 = Event A1
Serving becomes better than threshold.
2 = Event A2
Serving becomes worse than threshold.
3 = Event A3
Neighbor becomes offset better than PCell.
4 = Event A4
Neighbor becomes better than threshold.
5 = Event A5
PCell becomes worse than threshold 1 and neighbor
becomes better than threshold 2.
6 = Event A6
Neighbor becomes offset better than SCell.
21 = Event B1
Inter RAT neighbor becomes better than threshold.
22 = Event B2
PCell becomes worse than threshold 1 and inter RAT
neighbor becomes better than threshold 2.
Measurement ID Integer Measurement ID
See 3GPP TS 136.331 subclause 5.5.
Range: 1 – 32

Position report information (POSI)

Event ID POSI
Cellular systems GSM,UMTS FDD,LTE FDD,LTE TDD
Record state Always
Description Recorded when a position information is reported from mobile to the network. This
information is decoded from the signaling messages.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
Position report type Integer Position report type
See 3GPP TS 123.271, 125.305, 136.305, 136.355, and
144.031.
1 = UE-based A-GNSS
Assisted-global navigation satellite system.
2 = NW-based OTDOA
Observed time difference of arrival. When this method is
used the network calculates UE's position based on known
nodeB coordinates, and signal reception times measured
and reported by UE.
3 = UE-based E-OTD
Enhanced observed time difference. This is similar with
OTDOA but it is only used with GSM.
4 = NW-based ECID
Enhanced cell ID positioning method where network
calculates mobile's position using RX/TX measurements
done by mobile. When this positioning method is used the
longitude and latitude parameters are n/a.
Result Integer Position report result
1 = Success
2 = Undefined failure
3 = Not supported
4 = Request denied
50 = Assistance data not supported by server
51 = Assistance data not available
52 = Assistance data partly not supported or not available
100 = Not enough satellites
101 = Not all requested measurements are possible
102 = Requested measurement not available
200 = Unable to measure reference cell
201 = Unable to measure any neighbor cell
202 = Unable to measure some neighbor cells
300 = Not enough base stations
Lon. Float Position report longitude
Longitude of the measured position.
Lat. Float Position report latitude
Latitude of the measured position.
Height Integer Position report height
Unit: m
Confidence Float Position report confidence
Range: 0 – 100
Unit: %

MBMS information (MBMSI)

Event ID MBMSI
Cellular systems LTE FDD,LTE TDD
Record state Always
Description Recorded when MBMS allocation changes.
Tools Nemo Outdoor
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
Parameters for LTE |Top|
Name Type Description
#Header params Integer Number of header parameters
#Services Integer Number of MBMS services
#Params/service Integer Number of parameters per MBMS service
MCC Integer MBMS service MCC
See ITU-T recommendation E.212.
Range: 0 – 999
MNC Integer MBMS service MNC
Range: 0 – 999
Service ID Integer MBMS service ID
Uniquely identifies the identity of an MBMS service within a PLMN.
See more 3GPP TS 136.331 subclause 6.3.7.
Range: 0 – 16777215
Session ID Integer MBMS session ID
Range: 0 – 255
Area ID Integer MBSFN area ID
Multi broadcast single frequency network area identity. See more
3GPP TS 136.211 subclause 6.10.2.1.
Range: 0 – 255
Data MCS Integer MBMS data MCS
Defines the modulation and the amount of coding used. See 3GPP TS
36.213 subclause 7.1.7.
Range: 0 – 31
State Integer MBMS service state
1 = Active
2 = Available

Physical channel throughput broadcast (PHRATEB)

Event ID PHRATEB
Cellular systems LTE FDD,LTE TDD
Record state Always
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for LTE |Top|

Name Type Description
PMCH throughput Integer PMCH throughput
Physical layer PMCH throughput is sum of all transport blocks
received from the PMCH disregarding CRC result.
Minimum value: 0
Unit: bit/s
PMCH SNR Float PMCH SNR
Mobile vendor specific signal-to-noise-ratio for PMCH.
Unit: dB

MAC layer throughput broadcast (MACRATEB)

Event ID MACRATEB
Cellular systems LTE FDD,LTE TDD
Record state Always
Description Recorded when measurement sample is received from the device and the received
sample differs from the previous result. This UMTS measurement event is recorded
simultaneously with the PLAID measurement event and only during HSDPA session.
Tools Nemo Outdoor
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for LTE |Top|

Name Type Description
MCH thoughput Integer MCH thoughput
MAC layer MCH throughput is sum of transport blocks with
correct CRC. With some implementations it is possible that
MCH throughput does not contain MAC layer headers and
overhead.
Minimum value: 0
Unit: bit/s
MCH block rate Integer MCH block rate
Number of received transport blocks since last report.
Minimum value: 0
MCH BLER Float MCH BLER
Ratio of correct and incorrect transport blocks since the last
report. The number of the incorrect transport blocks is Block
Rate times BLER divided by 100.
Range: 0 – 100
Unit: %
RLC layer throughput broadcast (RLCRATEB)
Event ID RLCRATEB
Cellular systems LTE FDD,LTE TDD
Record state Always
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for LTE |Top|

Name Type Description
#Header params Integer Number of header parameters
MTCH Integer MTCH throughput
throughput RLC layer MTCH throughput is bit rate calculated from the RLC layer
data SDUs.
Minimum value: 0
Unit: bit/s
#MRBs Integer Number of MBMS radio bearers
#Params/MRB Integer Number of parameters per MBMS radio bearer
Area ID/MRB Integer MBSFN area ID per MRB
Multi broadcast single frequency network area identity. See more 3GPP
TS 136.211 subclause 6.10.2.1.
Range: 0 – 255
PMCH Integer PMCH ID per MRB
ID/MRB Range: 0 – 15
Bitrate/MRB Integer MTCH throughput per MRB
Minimum value: 0
Unit: bit/s
Block Integer MTCH block rate per MRB
rate/MRB Minimum value: 0

Channel quality indicator (CQI)

Event ID CQI
Cellular systems UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD
Record state Packet active state
Description Recorded every 200 milliseconds to indicate distribution of HSDPA Channel Quality
Indications (CQI) transmitted to the network. The measurement event is recorded
simultaneously with the PLAID measurement event. One measurement event is logged
for all serving cells with HSDPA. Separate measurement event is logged for each serving
cell with LTE.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for UMTS FDD |Top|

Name Type Description
#Header params Integer Number of header parameters
Sample dur. Integer Sample duration
The time from which samples are collected for the distribution.
Unit: ms
Ph req. rate Integer HSDPA physical layer requested throughput
Computational throughput based on the transport block sizes
indicated by the CQI values. In MIMO mode, only CQI type A is used
for the calculation. This is the throughput that would have been
achieved if the network had sent the link adaptation parameters
defined by the CQI.
Minimum value: 0
Unit: bit/s
CQI repetitions Integer HSDPA CQI repetition factor
Controls how often the UE repeats CQI information on the uplink. See
3GPP TS 25.214 subclause 6A.1.2.
Range: 1 – 4
CQI cycle Integer HSDPA CQI feedback cycle
Controls how often the UE transmits new CQI information on the
uplink. See 3GPP TS 25.214 subclause 6A.1.2.
Range: 0 – 160
Unit: ms
MIMO R2 req. % Float HSDPA MIMO rank 2 request ratio
Defines the percentage of time MIMO was requested using CQI
values. This is the ratio of double CQI values to total of type A CQI
values. This parameter is also known as rank indicator.
Range: 0 – 100
Unit: %
#CQI values Integer Number of CQI values
#Params/CQI value Integer Number of parameters per CQI value
Percentage Float HSDPA CQI percentage
Percentage of this CQI value from the total sampling duration. Note
that the sum of the percentages is 200 when the measurement event
contains information about primary and secondary HSPA cells.
Range: 0 – 100
Unit: %
CQI Integer HSDPA CQI
An estimate of the link adaptation (transport block size, the
modulation type, the number of parallel codes, and the spreading
factor) required to enable correct reception with reasonable block
error rate. The measured value is reported periodically to the network.
This information can be used for data scheduling and link adaptation.
When the secondary CQI has a valid value, the range of the
parameter is limited to values 0-14. See 3GPP TS 125.214 subclause
6A.2.
Range: 0 – 30
CQI type Integer HSDPA CQI type
See 3GPP TS 125.214 subclause 6A.1.2.2.
1 = CQI type A
2 = CQI type B
This type is used when MIMO is not configured.
CQI 2 Integer HSDPA CQI 2
An estimate of the link adaptation (transport block size, the
modulation type, the number of parallel codes, and the spreading
factor) required to enable correct reception with reasonable block
error rate. The measured value is reported periodically to the network.
This information can be used for data scheduling and link adaptation.
This parameter is always n/a when CQI type B is used. See 3GPP TS
125.214 subclause 6A.2.
Range: 0 – 14
Cell type Integer HSDPA cell type
1 = Primary
2 = Secondary

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
#Params Integer Number of parameters
Sample dur. Integer Sample duration
The time from which samples are collected for the distribution.
Unit: ms
Ph req. rate Integer HSDPA physical layer requested throughput
Computational throughput based on the transport block sizes
indicated by the CQI values. In MIMO mode, only CQI type A is used
for the calculation. This is the throughput that would have been
achieved if the network had sent the link adaptation parameters
defined by the CQI.
Minimum value: 0
Unit: bit/s
#CQI values Integer Number of CQI values
#Params/CQI value Integer Number of parameters per CQI value
Percentage Float HSDPA CQI percentage
Percentage of this CQI value from the total sampling duration. Note
that the sum of the percentages is 200 when the measurement event
contains information about primary and secondary HSPA cells.
Range: 0 – 100
Unit: %
CQI Integer HSDPA CQI
An estimate of the link adaptation (transport block size, the
modulation type, the number of parallel codes, and the spreading
factor) required to enable correct reception with reasonable block
error rate. The measured value is reported periodically to the network.
This information can be used for data scheduling and link adaptation.
See 3GPP TS 125.224 subclause 4.11.2.
Range: 0 – 127

Parameters for LTE |Top|

Name Type Description
#Params Integer Number of parameters
Sample dur. Integer Sample duration
The time from which samples are collected for the distribution.
Unit: ms
Req. rate Integer Requested throughput
Computational throughput based on the transport block sizes
indicated by the wideband CQI values. It is assumed that all eNodeB
resources are available for the device, three PDCCH symbols are
allocated for each subframe, no PRBs are allocated for PBCH, P-
SCH, or S-SCH physical channels, and BLER is zero. In situations
where rank 2 or rank 4 reception would have been possible,
wideband CQI values of both codewords are used in the throughput
calculation. This is the estimation of throughput that would have been
achieved if the network had used the link adaptation parameters
defined by the CQI. This estimation may be overestimation because
of zero BLER hypothesis and since no PRBs are allocated for other
physical channels or it can be underestimation since for PDCCH
three symbols are always reserved.
Minimum value: 0
Unit: bit/s
WB CQI 0 Integer Wideband CQI for codeword 0
This is the average wideband CQI calculated over the reporting
period. See 3GPP TS 36.213 subclause 7.2.
Range: 0 – 15
WB CQI 1 Integer Wideband CQI for codeword 1
This is the average wideband CQI calculated over the reporting
period. See 3GPP TS 36.213 subclause 7.2.
Range: 0 – 15
SB CQI 0 Integer Subband CQI for codeword 0
The subband CQI is the average calculated over the subbands
defined by higher layer or selected by mobile. This reported subband
CQI value is furthermore averaged over the reporting period before it
is logged to the measurement event. More information about CQI see
3GPP TS 36.213 subclause 7.2.
Range: 0 – 15
SB CQI 1 Integer Subband CQI for codeword 1
The subband CQI is the average calculated over the subbands
defined by higher layer or selected by mobile. This reported subband
CQI value is furthermore averaged over the reporting period before it
is logged to the measurement event. More information about CQI see
3GPP TS 36.213 subclause 7.2.
Range: 0 – 15
WB PMI Integer Wideband PMI
The logged value is the most commonly used value during the
reporting period. A user equipment uses Precoding Matrix Indicator
(PMI) to inform the eNodeB which precoding matrix should be used
for downlink transmission according to the rank indication. See 3GPP
TS 136.213 subclause 7.2.4.
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell index.
0 = PCell
Primary serving cell.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4
#Ranks Integer Number of ranks
The first requested rank value defines the ratio of rank one, the
second rank value defines the ratio of rank two, etc.
#Params/rank Integer Parameters per rank
Req. rank Float Requested rank
Defines based on RI reports the ratio of time when the mobile would
have been able to receive data using defined rank. This is the report
from the device to the network how many simultaneous data streams
(or layers) it can receive when spatial multiplexing transmission
scheme is used.
Range: 0 – 100
Unit: %
Rank Integer Rank
Range: 1 – 4
#CQI subbands Integer Number of CQI subbands
#Params/subband Integer Number of parameters per CQI subband
SB index Integer CQI subband index
Subband Channel Quality Indication (CQI) reports the quality on a
selected set of preferred subbands by the UE. The selected set can
also be configured from a higher layer. See 3GPP TS 36.213
subclause 7.2.
CQI 0/SB Integer CQI for codeword 0 per subband
The average channel quality index value over the reporting period for
defined subband. Not available when the best M select mode is used.
More information about CQI see 3GPP TS 36.213 subclause 7.2.
Range: 0 – 15
CQI 1/SB Integer CQI for codeword 1 per subband
The average channel quality index value over the reporting period for
defined subband. Not available when the best M select mode is used.
More information about CQI see 3GPP TS 36.213 subclause 7.2.
Range: 0 – 15

HARQI process information (HARQI)

Event ID HARQI
Cellular systems UMTS FDD,UMTS TD-SCDMA
Record state Packet active state
Description Recorded every 200 milliseconds to indicate HSDPA HARQ throughput based on the
trace messages of the mobile. This measurement event is recorded simultaneously with
the PLAID measurement event.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA

Parameters for UMTS FDD |Top|

Name Type Description
#Header params Integer Number of header parameters
#HARQ Integer Number of HARQ processes
processes
#Params/HARQ Integer Number of parameters per HARQ process.
HARQ ID Integer HSDPA HARQ process Identifier
Range: 0 – 15
HARQ dir. Integer HSDPA HARQ process direction
1 = Uplink
2 = Downlink
HARQ Rate Integer HSDPA HARQ process throughput
The value of the parameter is calculated from the transport block sizes
for each HARQ process separately.
Minimum value: 0
Unit: bit/s
#HARQ Integer HSDPA HARQ process block rate
packets The number of MAC-hs PDUs transferred per HARQ process.
HARQ BLER Float HSDPA HARQ process BLER
The ratio of erroneously received MAC-hs PDUs to all received MAC-
hs PDUs for each HARQ process separately.
Range: 0 – 100
Unit: %
Cell type Integer HSDPA cell type
1 = Primary
2 = Secondary

Parameters for UMTS TD-SCDMA |Top|

HS-SCCH channel information (HSSCCHI)

Event ID HSSCCHI
Cellular systems UMTS FDD,UMTS TD-SCDMA
Record state Packet active state
Description Recorded every 200 milliseconds to indicate HS-SCCH channel usage based on the
trace messages of the mobile. This measurement event is recorded simultaneously with
the PLAID measurement event.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA

Parameters for UMTS FDD |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
HS-SCCH Integer HSDPA HS-SCCH channelisation code
code Range: 0 – 127
HS-SCCH Float HSDPA HS-SCCH usage
usage Defines the ratio of TTIs when new or retransmitted data is indicated
using this HS-SCCH channelisation code. Note that the sum of the
percentages is 200 when the measurement event contains information
about primary and secondary HSDPA cells.
Range: 0 – 100
Unit: %
Cell type Integer HSDPA cell type
1 = Primary
2 = Secondary

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
HS-SCCH 1st Integer HSDPA HS-SCCH first channelisation code
code Range: 0 – 15
HS-SCCH Integer HSDPA HS-SCCH second channelisation code
2nd code Range: 0 – 15
HS-SCCH Float HSDPA HS-SCCH usage
usage Defines the ratio of TTIs when new or retransmitted data is indicated
using this HS-SCCH channelisation code. Note that the sum of the
percentages is 200 when the measurement event contains information
about primary and secondary HSDPA cells.
Range: 0 – 100
Unit: %

Packet link adaptation info for downlink (PLAID)

Event ID PLAID
Cellular systems UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,WiMAX
Record state Packet active state
Description The measurement event contains statistical information on the usage of the downlink link
adaptation based on the trace messages of the mobile. Currently recorded at a 200
millisecond interval with HSDPA. Only one measurement event is logged for all serving
cells with HSDPA. Separate measurement event is logged for each serving cell with LTE.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |Parameters for LTE |Parameters for WiMAX |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
25 = WiMAX

Parameters for UMTS FDD |Top|

Name Type Description
#Header params Integer Number of header parameters
Sample Integer Sample duration
duration The time from which samples are collected for the distribution.
Unit: ms
HS-PDSCH Integer HSDPA HS-PDSCH throughput
rate High-Speed Physical Downlink Shared Channel throughput is
calculated from all (also retransmitted) transport blocks received from
the HS-DSCH transport channel and divided by sample duration. This
parameter is also known as HSDPA physical channel throughput or
served throughput.
Minimum value: 0
Unit: bit/s
MIMO usage Float HSDPA MIMO usage ratio
The percentage of TTIs during the reporting period when dual stream
transfer is used. This value displays the exact amount of MIMO used
with HSDPA.
Range: 0 – 100
Unit: %
Scheduled Integer HSDPA HS-PDSCH scheduled throughput
rate High-Speed Physical Downlink Shared Channel scheduled throughput
is calculated from all (also retransmitted) transport blocks received from
the HS-DSCH transport channel and divided by time when data is
received from the network (idle time is not calculated). With DC-HSDPA
the scheduled throughput is calculated separately for each cell and then
the received values are summed up to get the total scheduled
throughput.
Minimum value: 0
Unit: bit/s
#PLA sets Integer Number of packet link adaptation sets
#Params/PLA Integer Number of parameters per packet link adaptation set
set
Percentage Float HSDPA percentage
Percentage of this set from the total sample duration. Note that the sum
of the percentages is 200 when the measurement event contains
information about primary and secondary HSDPA cells.
Range: 0 – 100
Unit: %
Modulation Integer HSDPA modulation
1 = QPSK
2 = 16QAM
3 = 64QAM
Effective Float HSDPA effective coding
coding Effective coding is transport block size divided by bits per TTI per
physical channel (=U), where U is 960 bits for QPSK, 1920 bits for
16QAM, and 2880 bits for 64QAM.
Range: 0 – 1
TB size Integer HSDPA transport block size
Minimum value: 0
Unit: bit
1st code Integer HSDPA first channelisation code
Range: 0 – 15
#codes Integer HSDPA number of used channelisation codes
Range: 1 – 15
BLER Float HSDPA MAC-hs BLER
The ratio of erroneously received MAC-hs PDUs to all MAC-hs PDUs
with this link adaptation configuration.
Range: 0 – 100
Unit: %
HS-SCCH Integer HSDPA HS-SCCH type
type See 3GPP TS 125.212 subclause 4.6.
0 = No data
1 = HS-SCCH type 1
2 = HS-SCCH type 2
3 = HS-SCCH type 3
10 = No data (DRX)
100 = RX and TX order, disable HS-SCCH-less mode
101 = DRX and TX order, disable HS-SCCH-less mode
102 = RX and DTX order, disable HS-SCCH-less mode
103 = DRX and DTX order, disable HS-SCCH-less mode
104 = RX and TX order, enable HS-SCCH-less mode
105 = DRX and TX order, enable HS-SCCH-less mode
106 = RX and DTX order, enable HS-SCCH-less mode
107 = DRX and DTX order, enable HS-SCCH-less mode
110 = Secondary serving HS-DSCH deactivation order
111 = Secondary serving HS-DSCH activation order
Modulation 2 Integer HSDPA modulation for secondary stream
1 = QPSK
2 = 16QAM
3 = 64QAM
Effective Float HSDPA effective coding for secondary stream
coding 2 Range: 0 – 1
TB size 2 Integer HSDPA transport block size for secondary stream
Minimum value: 0
Unit: bit
BLER 2 Float HSDPA MAC-hs BLER for secondary stream
Range: 0 – 100
Unit: %
Cell type Integer HSDPA cell type
1 = Primary
2 = Secondary

Parameters for UMTS TD-SCDMA |Top|

Parameters for LTE |Top|

Name Type Description
#Header params Integer Number of header parameters
Sample Integer Sample duration
duration The time from which samples are collected for the distribution.
Unit: ms
DL PRB % Float PRB utilization DL
Downlink PRB utilization proportional to bandwidth and reporting period.
Range: 0 – 100
Unit: %
DL TBS Integer PDSCH average transport block size
Minimum value: 0
Unit: bit
Max DL TBS Integer PDSCH maximum transport block size
Minimum value: 0
Unit: bit
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell index.
0 = PCell
Primary serving cell.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4
#PLA sets Integer Number of packet link adaptation sets
#Params/PLA Integer Number of parameters per packet link adaptation set
set
Percentage Float PDSCH modulation percentage
Range: 0 – 100
Unit: %
Rank Integer PDSCH rank
Defines how many data streams are used for the data transmission.
When spatial multiplexing transmission scheme is used, the rank is the
same as the number of used layers. The value of the parameter is zero
when data is not received.
Range: 0 – 4
Modulation 0 Integer PDSCH modulation for codeword 0
This is the modulation order as defined by 3GPP TS 36.213 subclause
7.1.7.
0 = BPSK
1 = QPSK
2 = 16QAM
3 = 64QAM
4 = 256QAM
MCS 0 Integer PDSCH MCS index for codeword 0
Defines the modulation and the amount of coding used. See 3GPP TS
36.213 subclause 7.1.7.
Range: 0 – 31
Modulation 1 Integer PDSCH modulation for codeword 1
This is the modulation order as defined by 3GPP TS 36.213 subclause
7.1.7.
0 = BPSK
1 = QPSK
2 = 16QAM
3 = 64QAM
4 = 256QAM
MCS 1 Integer PDSCH MCS index for codeword 1
Defines the modulation and the amount of coding used. See 3GPP TS
36.213 subclause 7.1.7.
Range: 0 – 31
N_rep Integer PDSCH repetitions
Defines how many times this combination was repeated. Same as
N_rep. See 3GPP TS 36.213 subclause 7.1.11 (BL/CE) and 16.4. (NB-
IoT).
Range: 1 – 2048
TBS 0 Integer PDSCH transport block size for codeword 0
Minimum value: 0
Unit: bit
TBS 1 Integer PDSCH transport block size for codeword 1
Minimum value: 0
Unit: bit
#PRBs Integer Number of PRBs
#Params/PRB Integer Number of parameters per PRB
Percentage Float PDSCH PRB percentage
Range: 0 – 100
Unit: %
PRBs Integer PDSCH PRBs
Range: 0 – 100
SFs Integer PDSCH Subframes
With NB-IoT defines how many subframes were allocated.
Range: 0 – 10
#PRB indexes Integer Number of PRB indexes
This is the same as the system bandwidth.
Range: 0 – 100
#Params/PRB Integer Number of parameters per PRB index
index
DL PRB %/i Float PRB utilization DL/index
Range: 0 – 100
Unit: %
PRB index Integer PRB index
Range: 0 – 99

Parameters for WiMAX |Top|

Packet link adaptation info for uplink (PLAIU)

Event ID PLAIU
Cellular systems UMTS FDD,WiMAX,LTE FDD,LTE TDD
Record state Packet active state
Description The measurement event contains statistical information on the usage of the uplink link
adaptation based on the trace messages of the mobile. Recorded every 200 milliseconds
with Nokia-based mobiles and every 400 milliseconds with Qualcomm-based mobiles.
Separate measurement event is logged for each serving cell with DC-HSUPA and LTE.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for LTE |Parameters for WiMAX |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
25 = WiMAX

Parameters for UMTS FDD |Top|

Name Type Description
#Header params Integer Number of header parameters
Sample Integer Sample duration
duration The time from which samples are collected for the distribution.
Unit: ms
E-DPDCH Integer HSUPA E-DPDCH throughput
Rate E-DPDCH throughput is calculated from all (including retransmitted)
transport blocks transmitted in the E-DCH transport channel.
Minimum value: 0
Unit: bit/s
Lim. max Float HSUPA E-TFC selection limited by max power percentage
power Percentage of frames when larger E-TFCI selection would cause
exceeding of the maximum allowed TX power usage.
Range: 0 – 100
Unit: %
Lim. grant Float HSUPA E-TFC selection limited by serving grant percentage
Percentage of frames when larger E-TFCI cannot be selected since it
would require more power than allowed by current serving grant.
Range: 0 – 100
Unit: %
Lim. lack of Float HSUPA E-TFC selection limited by lack of data percentage
data Percentage of frames when larger E-TFCI cannot be selected since
mobile's output buffers doesn't contain enough data.
Range: 0 – 100
Unit: %
Lim. by mux Float HSUPA E-TFC selection limited by mux restriction percentage
Percentage of frames when larger E-TFCI cannot be selected since
MAC-d flows containing data cannot be multiplexed together with
currently selected MAC-d flow. Allowed multiplexing is defined by E-
DCH MAC-d flow multiplexing list -parameter in 3GPP TS 125.331
subclause 10.3.5.1b.
Range: 0 – 100
Unit: %
Lim. by HARQ Float HSUPA E-TFC selection limited by HARQ restriction percentage
Percentage of frames when larger E-TFCI cannot be selected since
certain MAC-d flows cannot be send using current used HARQ process.
Allowed HARQ processes per MAC-d flow is controlled by 2ms non-
scheduled transmission grant HARQ process allocation -parameter in
3GPP TS 125.331 subclause 10.3.5.1b. Non-zero only when 2ms
subframes are used.
Range: 0 – 100
Unit: %
Cell type Integer HSUPA cell type
1 = Primary
2 = Secondary
#PLA sets Integer Number of packet link adaptation sets
#Params/PLA Integer Number of parameters per packet link adpatation set
set
Percentage Float HSUPA percentage
Percentage of this set from the total sample duration. Note that the sum
of the percentages is 200 when the measurement event contains
information about primary and secondary HSDPA cells.
Range: 0 – 100
Unit: %
Modulation Integer HSUPA modulation
1 = QPSK
2 = 16QAM
TB size Integer HSUPA transport block size
Minimum value: 0
Unit: bit
E-TFCI Integer HSUPA E-TFCI
Range: 0 – 127
SFs Integer HSUPA spreading and channelisation codes
1 = SF 256
2 = SF 128
3 = SF 64
4 = SF 32
5 = SF 16
6 = SF 8
7 = SF 4
8 = 2 * SF 4
9 = 2 * SF 2
10 = 2 * SF 4 and 2 * SF 2
Retr. Float HSUPA retransmission rate per LA
The ratio of erroneous MAC-e PDUs retransmitted using this link
adaptation configuration.
Range: 0 – 100
Unit: %
Avg. SG index Integer HSUPA average serving grant
The most common value is reported.
-1 = ZERO_GRANT
0=0
1=1
2=2
3=3
4=4
5=5
6=6
7=7
8=8
9=9
10 = 10
11 = 11
12 = 12
13 = 13
14 = 14
15 = 15
16 = 16
17 = 17
18 = 18
19 = 19
20 = 20
21 = 21
22 = 22
23 = 23
24 = 24
25 = 25
26 = 26
27 = 27
28 = 28
29 = 29
30 = 30
31 = 31
32 = 32
33 = 33
34 = 34
35 = 35
36 = 36
37 = 37
Avg. SG Float HSUPA average serving grant power
-10.0 if ZERO_GRANT.
Range: −10 – 30
Unit: dB

Parameters for LTE |Top|

Name Type Description
#Header params Integer Number of header parameters
Sample Integer Sample duration
duration The time from which samples are collected for the distribution.
Unit: ms
UL PRB % Float PRB utilization UL
Uplink PRB utilization proportional to bandwidth and reporting period.
Range: 0 – 100
Unit: %
Avg UL TBS Integer PUSCH average transport block size
Minimum value: 0
Unit: bit
Max UL TBS Integer PUSCH maximum transport block size
Minimum value: 0
Unit: bit
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell index.
0 = PCell
Primary serving cell.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4
#PLA sets Integer Number of packet link adaptation sets
#Params/PLA Integer Number of parameters per packet link adaptation set
set
Percentage Float PUSCH modulation percentage
Range: 0 – 100
Unit: %
Rank Integer PUSCH rank
Defines how many data streams are used for the data transmission.
When spatial multiplexing transmission scheme is used, the rank is the
same as the number of used layers. The value of the parameter is zero
when data is not transmitted.
Range: 0 – 1
Modulation 0 Integer PUSCH modulation for codeword 0
The modulation order as defined by 3GPP TS 36.213 subclause 8.6.
1 = QPSK
2 = 16QAM
3 = 64QAM
MCS index 0 Integer PUSCH MCS index for codeword 0
Defines the modulation and the amount of coding used for data
transmission. In the case of retransmission the recorded value is the
same as originally used for the data transmission (instead of values
from 29 to 31 that are used to indicate redundancy version). See 3GPP
TS 36.213 subclause 8.6.
Range: 0 – 31
Modulation 1 Integer PUSCH modulation for codeword 1
The modulation order as defined by 3GPP TS 36.213 subclause 8.6.
MCS index 1 Integer PUSCH MCS index for codeword 1
Defines the modulation and the amount of coding used for data
transmission. In the case of retransmission the recorded value is the
same as originally used for the data transmission (instead of values
from 29 to 31 that are used to indicate redundancy version). See 3GPP
TS 36.213 subclause 8.6.
Range: 0 – 31
N_rep Integer PUSCH repetitions
Defines how many times this combination was repeated. Same as
N_rep. See 3GPP TS 36.213 subclause 8.0 (BL/CE) and 16.5. (NB-
IoT).
Range: 1 – 128
TBS 0 Integer PUSCH transport block size for codeword 0
Minimum value: 0
Unit: bit
TBS 1 Integer PUSCH transport block size for codeword 1
Minimum value: 0
Unit: bit
#PRBs Integer Number of PRBs
#Params/PRB Integer Number of parameters per PRB
Percentage Float PUSCH PRB percentage
Range: 0 – 100
Unit: %
PRBs Integer PUSCH PRBs
Range: 0 – 100
SCs Integer PUSCH subcarriers
With NB-IoT defines how many subcarriers are allocated.
0 = 1x3.75 kHz
1 = 1x15 kHz
3 = 3x15 kHz
6 = 6x15 kHz
12 = 12x15 kHz
#PRB indexes Integer Number of PRB indexes
This is the same as the system bandwidth.
Range: 0 – 100
#Params/PRB Integer Number of parameters per PRB index
index
UL PRB %/i Float PRB utilization UL/index
Range: 0 – 100
Unit: %
PRB index Integer PRB index
Range: 0 – 99

Parameters for WiMAX |Top|

Name Type Description
#PLA header Integer Number of header parameters
parameters
Sample dur. Integer Sample duration
The time from which samples are collected for the distribution.
Unit: ms
Burst count Integer WiMAX burst count
Number of received or sent burst during reporting period.
#PLA sets Integer Number of packet link adaptation sets
#Params/PLA Integer Number of parameters per packet link adaptation set
set
Percentage Float WiMAX percentage
Ratio of burst that used this modulation and coding.
Range: 0 – 100
Modulation Integer WiMAX modulation
1 = QPSK
2 = 16QAM
3 = 64QAM
Coding rate Integer WiMAX coding rate
1=1/2
2=3/5
3=5/8
4=2/3
5=3/4
6=4/5
7=5/6
Coding type Integer WiMAX coding type
1 = Tail biting convolutional Code (CC)
2 = Block turbo code (BTC)
3 = Convolutional turbo code (CTC)
4 = Zero tail convolutional code (ZTCC)
Repetition Integer WiMAX repetition coding
coding 1 = No repetition coding
2 = Repetition coding 2
4 = Repetition coding 4
6 = Repetition coding 6
Happy bit indicator (HBI)
Event ID HBI
Cellular systems UMTS FDD
Record state Packet active state
Description The measurement event contains information on the state of the happy bit transmitted by
the mobile to the network during an HSUPA session. The measurement event is recorded
simultaneously with the PLAIU measurement event. The measurement event is logged
only for primary serving cell with DC-HSUPA.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD

Parameters for UMTS FDD |Top|

Name Type Description
Reporting interval Integer HSUPA happy bit reporting interval
Defines how often HBI measurement event is reported during
HSUPA transfer.
Unit: ms
Happy bit Float HSUPA happy bit status percentage
Defines how often happy bit status was set happy during
previous reporting interval excluding DTX TTIs.
Range: 0 – 100
Unit: %
DTX Float HSUPA happy bit DTX percentage
How many TTIs DTX was used during previous reporting
period.
Range: 0 – 100
Unit: %

MAC-E layer throughput (MACERATE)

Event ID MACERATE
Cellular systems UMTS FDD
Record state Packet active state
Description The measurement event contains information on the MAC-e layer throughput based on
the trace messages of the mobile. The measurement event is reported during an HSUPA
session simultaneously with PLAIU measurement event. Separate measurement event is
logged for each serving cell with DC-HSUPA.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD

Parameters for UMTS FDD |Top|

Name Type Description
MAC-e bitrate Integer HSUPA MAC-e throughput
The value of this parameter is calculated based on the SDUs
that are successfully transferred through the MAC-e layer.
Missing and erroneous MAC-e blocks are excluded from the
throughput calculation. Approximation of MAC-e throughput is
calculated from transport block sizes if real MAC-e throughput
is not provided by diagnostic interface of the device.
Approximation is a little bit higher than real MAC-e throughput
since it contains MAC headers and padding.
Minimum value: 0
Unit: bit/s
MAC-e block rate Integer HSUPA MAC-e block rate
The total number of MAC-e PDUs transmitted during the
reporting period.
MAC-e 1st retr. Float HSUPA MAC-e 1st retransmission rate
The ratio of MAC-e PDUs retransmitted after the first
transmission attempt.
Range: 0 – 100
Unit: %
MAC-e 2nd retr. Float HSUPA MAC-e 2nd retransmission rate
The ratio of MAC-e PDUs retransmitted after the second
transmission attempt.
Range: 0 – 100
Unit: %
MAC-e 3rd+ retr. Float HSUPA MAC-e 3rd+ retransmission rate
The ratio of MAC-e PDUs retransmitted after the third or later
transmission attempt.
Range: 0 – 100
Unit: %
Cell type Integer HSUPA cell type
1 = Primary
2 = Secondary

Absolute Grant (AGRANT)

Event ID AGRANT
Cellular systems UMTS FDD
Record state Packet active state
Description Recorded when serving grant is modified using E-AGCH channel. Note that this
measurement event is not necessarily recorded exactly with the correct timestamp
because of limitations in the trace interface of the mobile. For the same reason, there can
be multiple AGRANT measurement events with the same timestamp. In these cases, the
order of the measurement events is the order of the E-AGCH modifications.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD

Parameters for UMTS FDD |Top|

Name Type Description
AGCH index Integer HSUPA AGCH absolute grant index
Absolute grant index provides the information of how much
power a user equipment can use for transmission. See more
3GPP TS 125.321 subclause 9.2.5.2.2.
Range: 0 – 31
AGCH grant Float HSUPA AGCH absolute grant power
Absolute grant power level is issued to a user equipment (UE)
by the network and is the maximum amount of power the UE is
allowed to use for transmission. Power ratio between E-DPDCH
and DPCCH channels. See more 3GPP TS 125.212 subclause
4.10.1A.
Range: −10 – 35
Unit: dB
AGCH scope Integer HSUPA AGCH absolute grant scope
See more 3GPP TS 125.321 subclause 9.2.5.2.2.
-1 = All HARQ processes
0 = HARQ process ID 0
1 = HARQ process ID 1
2 = HARQ process ID 2
3 = HARQ process ID 3
4 = HARQ process ID 4
5 = HARQ process ID 5
6 = HARQ process ID 6
7 = HARQ process ID 7
AGCH selector Integer HSUPA AGCH absolute grant selector
1 = Primary
2 = Secondary
E-RNTI selector Integer HSUPA serving grant selector
Defines currently selected E-RNTI.
1 = Primary
2 = Secondary
Cell type Integer HSUPA cell type
1 = Primary
2 = Secondary

Serving Grant (SGRANT)

Event ID SGRANT
Cellular systems UMTS FDD
Record state Packet active state
Description The measurement event contains statistical information on the used serving grant based
on the trace interface. The measurement event is reported during an HSUPA session
simultaneously with the PLAIU measurement event. Separate measurement event is
logged for each serving cell with DC-HSUPA.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD

Parameters for UMTS FDD |Top|

Name Type Description
#Header Integer Number of header parameters
params
Sample dur. Integer Sample duration
The time from which samples are collected for the distribution.
Unit: ms
Granted rate Integer HSUPA granted throughput
The throughput that would have been achieved if all power defined by
the serving grant had been used for the data transmission.
Minimum value: 0
Unit: bit/s
SG utilization Float HSUPA serving grant utilization
SG utilization is the total of all transferred scheduled bits divided by bits
that could have been transferred if the appropriate serving grant index
had been used. This is approximately the same as the ratio between
transferred throughput and serving grant throughput.
Range: 0 – 100
Unit: %
Cell type Integer HSUPA cell type
1 = Primary
2 = Secondary
#SG sets Integer Number of serving grant sets
#Params/SG Integer Number of parameters per serving grant set
set
Distribution Float HSUPA serving grant distribution
Range: 0 – 100
Unit: %
SG index Integer HSUPA serving grant index
See more 3GPP TS 125.321 subclause 9.2.5.2.1.
-1 = ZERO_GRANT
0=0
1=1
2=2
3=3
4=4
5=5
6=6
7=7
8=8
9=9
10 = 10
11 = 11
12 = 12
13 = 13
14 = 14
15 = 15
16 = 16
17 = 17
18 = 18
19 = 19
20 = 20
21 = 21
22 = 22
23 = 23
24 = 24
25 = 25
26 = 26
27 = 27
28 = 28
29 = 29
30 = 30
31 = 31
32 = 32
33 = 33
34 = 34
35 = 35
36 = 36
37 = 37
Serving grant Float HSUPA serving grant power
Power ratio between E-DPDCH and DPCCH channels. -10.0 if
ZERO_GRANT.
Range: −10 – 35
Unit: dB

E-DCH Information (EDCHI)

Event ID EDCHI
Cellular systems UMTS FDD
Record state Packet active state
Description The measurement event contains statistical information on the received relative grant
indications based on the trace interface. The measurement event is reported during an
HSUPA session simultaneously with the PLAIU measurement event. Separate
measurement event is logged for each serving cell with DC-HSUPA.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD

Parameters for UMTS FDD |Top|

Name Type Description
#Header Integer Number of header parameters
params
NS ACKs % Float HSUPA non-serving ACK percentage
Defines how often only non-serving E-DCH cell has reported ACK. Non-
transmitting frames are ignored.
Range: 0 – 100
Unit: %
NS grant Float HSUPA non-serving grant down percentage
down % Defines how often non-serving E-DCH cell has reported grant down
even if serving E-DCH cell has reported grant up or hold. Non-
transmitting frames are ignored.
Range: 0 – 100
Unit: %
Cell type Integer HSUPA cell type
1 = Primary
2 = Secondary
#Cells Integer Number of E-DCH cells
#Params/cell Integer Number of parameters per cell
HSUPA Integer HSUPA channel
channel
HSUPA SC Integer HSUPA scrambling code
Range: 0 – 511
HSUPA RLS Integer HSUPA radio link set
This parameter is the same as RG combination index defined in RRC
protocol specification.
Range: 0 – 5
ACK % Float HSUPA HICH ACK percentage
Range: 0 – 100
Unit: %
NACK % Float HSUPA HICH NACK percentage
Range: 0 – 100
Unit: %
DTX % Float HSUPA HICH DTX percentage
Range: 0 – 100
Unit: %
Grant up % Float HSUPA RGCH grant up percentage
Range: 0 – 100
Unit: %
Grant hold % Float HSUPA RGCH grant hold percentage
Range: 0 – 100
Unit: %
Grant down Float HSUPA RGCH grant down percentage
% Range: 0 – 100
Unit: %

HSUPA scheduling information (HSUPASI)

Event ID HSUPASI
Cellular systems UMTS FDD
Record state Packet active state
Description The measurement event contains statistical information on the transmitted Scheduling
Information based on the trace interface. The measurement event is reported during an
HSUPA session simultaneously with the PLAIU measurement event. The measurement
event is logged only for primary serving cell with DC-HSUPA.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
Parameters for UMTS FDD |Top|
Name Type Description
Dur. Integer HSUPA Scheduling information sample duration
The time from which samples are collected.
Unit: ms
SI count Integer HSUPA scheduling information count
Number of Scheduling Informations sent during reporting
period.
HLID Integer HSUPA SI highest priority logical channel ID
Range: 0 – 15
HLBS Integer HSUPA SI highest priority logical channel buffer status
Range: 0 – 15
TEBS Integer HSUPA SI total E-DCH buffer status
This is a mode of all E-DCH buffer status received during
reporting period.
Range: 0 – 31
TEBS min Integer HSUPA SI total E-DCH buffer status minimum
This is a minimum of all E-DCH buffer status received during
reporting period.
Range: 0 – 31
TEBS max Integer HSUPA SI total E-DCH buffer status maximum
This is a maximum of all E-DCH buffer status received during
reporting period.
Range: 0 – 31
UPH Integer HSUPA SI UE power headroom
This is mode of all UE power headrooms received during
reporting period.
Range: 0 – 31
UPH min Integer HSUPA SI UE power headroom minimum
This is minimum of all UE power headrooms received during
reporting period.
Range: 0 – 31
UPH max Integer HSUPA SI UE power headroom maximum
This is maximum of all UE power headrooms received during
reporting period.
Range: 0 – 31

Data rate control info (DRCI)

Event ID DRCI
Cellular systems EVDO
Record state Packet active state
Description Recorded when parameter sample is received from the device.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO
#Header params Integer Number of header parameters
Sample Integer DRC sets sample duration
duration
#DRC sets Integer Number of DRC set
#Params/DRC Integer Number of parameters per DRC set
set
Percentage Float DRC set percentage
Range: 0 – 100
Unit: %
Requested Integer DRC set requested rate
rate
Packet length Integer Packet link adaptation packet length
0 = Short
1 = Long

Reverse data rate control (RDRC)

Event ID RDRC
Cellular systems EVDO
Record state Always
Description Recorded when parameters change.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO

Parameters for EVDO |Top|

Name Type Description
TX rate limit Integer Reverse rate limit (Rev 0 only)
Range: 0 – 153600
TX current rate Integer Current rate (Rev 0 only)
Range: 0 – 153600
Comb. RAB Integer Combined busy bit (Rev 0 only)
Reverse Activity Bit (RAB) is a control bit sent in regular intervals that
indicates if the access network is busy or not.
Range: 0 – 1
PA max Integer Maximum PA headroom available (Rev 0 only)
Range: 0 – 153600
Unit: bit/s
Random Integer Random variable
variable Random variable represents the random variable that was used to
calculate the new reverse rate (Rev 0 only).
Range: 0 – 255
Transition Integer Transition probability
probability Transition probability that was used to calculate the new reverse rate
(Rev 0 only).
Condition RRI Integer Condition RRI
Condition reverse rate provides the reverse rate that was calculated
based on the above factors (Rev 0 only).
Range: 0 – 153600
Unit: bit/s
Actual RRI Integer Actual RRI
Actual reverse rate. This should be less than condition RRI or there is
not enough data to be sent (Rev 0 only).
Range: 0 – 153600
Unit: bit/s
Padding bytes Integer Padding bytes
Number of padding bytes included in the reverse link packets (Rev 0
only).
Minimum value: 0
Unit: byte
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Packet Integer Packet carrier number
carrier
FRAB Integer FRAB
Fast reverse activity bit soft decision max.
QRAB Integer QRAB
Quick reverse activity bit hard decision.
0 = Unloaded
1 = Loaded
QRABps Integer QRABps
Quick reverse activity bit value based on pilot strength.
0 = Unloaded
1 = Loaded

Forward data rate control (FDRC)

Event ID FDRC
Cellular systems EVDO
Record state Always
Description Recorded when parameters change.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO

Parameters for EVDO |Top|

Name Type Description
DRC index Integer DRC index
Average over 16 samples.
DRC cover Integer DRC cover
Cover used to transmit DRC.
Range: 0 – 7
DSC value Integer DSC value
Data source control value transmitted by the mobile (Rev A only).
Range: 0 – 7
DRC boost Integer DRC gain boost
0 = Not applied
1 = Applied
DSC boost Integer DSC gain boost
0 = Not applied
1 = Applied
DRC lock upd. Integer Slot for DRC lock update
slot
ACK channel Integer ACK channel status
status 0 = Disabled
1 = Enabled
Forced Float Forced ACK/NAK ratio
ACK/NAK ratio Represents the ratio of forced ACK/NAKs.
Range: 0 – 100
Unit: %
ACK ratio Float ACK ratio
Range: 0 – 100
Unit: %
Multiuser ACK Float Multiuser ACK ratio
ratio Range: 0 – 100
Unit: %
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Packet Integer Packet carrier number
carrier
DRC Integer DRC index/Channel
index/Ch Average over 16 samples.

Physical FER (PHFER)

Event ID PHFER
Cellular systems EVDO,WiMAX
Record state Always
Description Recorded when frame error rate reports are received from the device.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for EVDO |Parameters for WiMAX |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO
25 = WiMAX
Parameters for EVDO |Top|
Name Type Description
PER Float PER instantaneous
Range: 0 – 100
Unit: %
PER short Float PER short
Range: 0 – 100
Unit: %
PER long Float PER long
Range: 0 – 100
Unit: %
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Packet Integer Packet carrier number
carrier
PER/Ch Float PER instantaneous/Channel
Range: 0 – 100
Unit: %
PER short/Ch Float PER short/Channel
Range: 0 – 100
Unit: %
PER long/Ch Float PER long/Channel
Range: 0 – 100
Unit: %

Parameters for WiMAX |Top|

Name Type Description
FER Float WiMAX frame lost ratio
Range: 0 – 100
Unit: %

Markov mux information (MARKOVMUX)

Event ID MARKOVMUX
Cellular systems cdmaOne,CDMA 1x
Record state Always
Description Recorded when the mobile reports the information.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for cdmaOne and CDMA 1x |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
10 = cdmaOne
11 = CDMA 1x

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
#Header params Integer Number of header parameters
Number of parameters before message data.
#Frames Integer Number of frames
Params/frame Integer Number of parameters per frame
M expecteted Integer Markov expected mux
mux 0 = 9600 markov
1 = 4800 markov
2 = 2400 markov
3 = 1200 markov
4 = 8 kbps non-markov
5 = 14400 markov
6 = 7200 markov
7 = 3600 markov
8 = 1800 markov
9 = 13 kbps non-markov
M actual mux Integer Markov actual mux
0 = 9600 primary
1 = 9600 1/2 primary + signaling
2 = 9600 1/4 primary + signaling
3 = 9600 1/8 primary + signaling
4 = 9600 signaling (B&B)
5 = 4800 primary
6 = 2400 primary
7 = 1200 primary
8 = Erased frame (poor quality)
9 = Frame quality insufficient to decide upon rate
10 = 9600 1/2 primary + secondary
11 = 9600 1/4 primary + secondary
12 = 9600 1/8 primary + secondary
13 = 9600 secondary (B&B)
14 = 14400 primary
15 = 14400 1/2 primary + signaling
16 = 14400 1/4 primary + signaling
17 = 14400 1/8 primary + signaling
18 = 14400 signaling (B&B)
19 = 14400 1/2 primary + secondary
20 = 14400 1/4 primary + secondary
21 = 14400 1/8 primary + secondary
22 = 14400 secondary (B&B)
23 = 14400 1/8 primary + signaling + secondary
24 = 7200 primary
25 = 7200 1/4 primary + signaling
26 = 7200 1/8 primary + signaling
27 = 7200 signaling (B&B)
28 = 7200 1/4 primary + secondary
29 = 7200 1/8 primary + secondary
30 = 7200 secondary (B&B)
31 = 7200 1/8 primary + signaling + secondary
32 = 3600 primary
33 = 3600 1/8 primary + signaling
34 = 3600 signaling (B&B)
35 = 3600 1/8 primary + secondary
36 = 3600 secondary (B&B)
37 = 1800 primary
38 = 1800 secondary (B&B)

MARKOV Statistics (MARKOVSTATS)

Event ID MARKOVSTATS
Cellular systems cdmaOne,CDMA 1x
Record state Call connection state
Description Recorded during a MARKOV call when parameter sample is received from the mobile.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
10 = cdmaOne
11 = CDMA 1x
#Header Integer Number of header parameters
params
M FER Float Markov frame error rate
Range: 0 – 100
Unit: %
#Expected rates Integer Number of expected rates
#Params Integer Number of parameters
M expected Integer Markov expected rate
1 = One eighth rate
2 = Quarter rate
3 = Half rate
4 = Full rate
M 1/1 Integer Markov full rate frames received
M 1/2 Integer Markov half rate frames received
M 1/4 Integer Markov quarter rate frames received
M 1/8 Integer Markov one eight rate frames received
M erasures Integer Markov erasures received

Multi carrier reverse link metrics (MCRLMETRICS)

Event ID MCRLMETRICS
Cellular systems EVDO
Record state Always
Description Recorded when parameters change.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO

Parameters for EVDO |Top|

Name Type Description
#Header params Integer Number of header parameters
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Band Integer Band
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
Packet carrier Integer Packet carrier number
Unexpected P- Integer Unexpected P-ARQ NACKs
ARQ NACKs Number of P-ARQ NACKs received after an H-ARQ ACK was already
received for same packet.
#Channels and PSs Integer Number of channels and packet sizes
#Params/Channel Integer Number of parameters per channel and packet size
and PS
Packet carrier Integer Packet carrier number
PS Integer Physical layer packet size
Minimum value: 0
Unit: bit
HiCap Integer HiCap Subpacket 0 ACKs
Subpacket 0
ACKs
HiCap Integer HiCap Subpacket 1 ACKs
Subpacket 1
ACKs
HiCap Integer HiCap Subpacket 2 ACKs
Subpacket 2
ACKs
HiCap Integer HiCap Subpacket 3 ACKs
Subpacket 3
ACKs
HiCapp ARQ Integer HiCapp ARQ NACKs
NACKs
LoLat Subpacket Integer LoLat Subpacket 0 ACKs
0 ACKs
LoLat Subpacket Integer LoLat Subpacket 1 ACKs
1 ACKs
LoLat Subpacket Integer LoLat Subpacket 2 ACKs
2 ACKs
LoLat Subpacket Integer LoLat Subpacket 3 ACKs
3 ACKs
LoLat P-ARQ Integer LoLat P-ARQ NACKs
NACKs

Multi carrier forward link statistics (MCFLSTATS)

Event ID MCFLSTATS
Cellular systems EVDO
Record state Always
Description Recorded when parameters change.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO

Parameters for EVDO |Top|

Name Type Description
#Header params Integer Number of header parameters
Band Integer Band
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
Packet carrier Integer Packet carrier number
#DRC and PS Integer Number of DRC and PS types
types
#Params/DRC Integer Number of parameters per DRC and PS type
and PS type
DRC and PS Integer DRC and PS type
type 0 = DRC 0, 128 bits
1 = DRC 0, 256 bits
2 = DRC 0, 512 bits
3 = DRC 0, 1024 bits
10 = DRC 1, 128 bits
11 = DRC 1, 256 bits
12 = DRC 1, 512 bits
13 = DRC 1, 1024 bits
20 = DRC 2, 128 bits
21 = DRC 2, 256 bits
22 = DRC 2, 512 bits
23 = DRC 2, 1024 bits
30 = DRC 3, 128 bits
31 = DRC 3, 256 bits
32 = DRC 3, 512 bits
33 = DRC 3, 1024 bits
40 = DRC 4, 128 bits
41 = DRC 4, 256 bits
42 = DRC 4, 512 bits
43 = DRC 4, 1024 bits
50 = DRC 5, 512 bits
51 = DRC 5, 1024 bits
52 = DRC 5, 2048 bits
60 = DRC 6, 128 bits
61 = DRC 6, 256 bits
62 = DRC 6, 512 bits
63 = DRC 6, 1024 bits
70 = DRC 7, 512 bits
71 = DRC 7, 1024 bits
72 = DRC 7, 2048 bits
80 = DRC 8, 1024 bits
81 = DRC 8, 3072 bits
90 = DRC 9, 512 bits
91 = DRC 9, 1024 bits
92 = DRC 9, 2048 bits
100 = DRC 10, 4096 bits
110 = DRC 11, 1024 bits
111 = DRC 11, 3072 bits
120 = DRC 12, 4096 bits
130 = DRC 13, 5120 bits
140 = DRC 14, 5120 bits
1000 = Short CC, 128 bits
1001 = Short CC, 256 bits
1002 = Short CC, 512 bits
1010 = CC, 38400 bits
1011 = CC, 76800 bits
TC packets Integer TC packets good
good
TC packes Integer TC packes bad
bad
TC packets Integer TC packets decoded in slot 1
decoded in
slot 1
TC packets Integer TC packets decoded in slot 2
decoded in
slot 2
TC packets Integer TC packets decoded in slot 3
decoded in
slot 3
TC packets Integer TC packets decoded in slot 4
decoded in
slot 4
TC packets Integer TC packets decoded in slot 5
decoded in
slot 5
TC packets Integer TC packets decoded in slot 6
decoded in
slot 6
TC packets Integer TC packets decoded in slot 7
decoded in
slot 7
TC packets Integer TC packets decoded in slot 8
decoded in
slot 8
TC packets Integer TC packets decoded in slot 9
decoded in
slot 9
TC packets Integer TC packets decoded in slot 10
decoded in
slot 10
TC packets Integer TC packets decoded in slot 11
decoded in
slot 11
TC packets Integer TC packets decoded in slot 12
decoded in
slot 12
TC packets Integer TC packets decoded in slot 13
decoded in
slot 13
TC packets Integer TC packets decoded in slot 14
decoded in
slot 14
TC packets Integer TC packets decoded in slot 15
decoded in
slot 15
TC packets Integer TC packets decoded in slot 16
decoded in
slot 16
Multilink multi-flow RLP forward link statistics (MLMFRLPFLSTATS)
Event ID MLMFRLPFLSTATS
Cellular systems EVDO
Record state Always
Description Recorded when parameters change.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO

Parameters for EVDO |Top|

Name Type Description
#Header params Integer Number of header parameters
Link flow ID Integer Link flow ID
Route number Integer Route number
Flow protocol Integer Flow protocol
Route protocol Integer Route protocol
Packet stream Integer Packet stream
Whether link flow is packet-based.
0 = Non-packet based
1 = Packet based
Sequence type Integer Sequence type
Whether link flow is doing segment-based sequencing.
0 = Non-segment based sequencing
1 = Segment based sequencing
SAR sequence Integer SAR sequence length
length
SAR sequence Integer SAR sequence length short
length short
AT quick NACK Integer AT quick NACK indication count
indication count Number of indicated Quick NAK records AT sent out.
AT quick NACK Integer AT quick NACK count
count Number of Quick NAK records AT sent out.
AT delayed Integer AT delayed NACK unit count
NACK unit Number of delayed NAK records AT sent out.
count
AT delayed Integer AT delayed NACK data unit count
NACK data unit Number of bytes requested by AT delayed NAKs.
count
RX Integer RX retransmitted bytes
retransmitted Minimum value: 0
bytes Unit: byte
RX Integer RX retransmitted frames
retransmitted
frames
RX new data Integer RX new data bytes
bytes Minimum value: 0
Unit: byte
RX new data Integer RX new data frames
frames
RX first data Integer RX first data unit
unit Number of RLP frames received with First Data Unit flag on.
RX last data Integer RX last data unit
unit Number of RLP frames received with Last Data Unit flag on.
RX duplicate Integer RX duplicate data bytes
data bytes Minimum value: 0
Unit: byte
RX duplicate Integer RX duplicate data frames
data frames
Called NACK Integer Called NACK timeouts
timeouts
NACK abort Integer NACK abort data unit approximation
data unit
approximation
Called reset Integer Called reset count
count Initiated by either the AN or AT.
AT reset Integer AT reset request count
request count
AN reset ACK Integer AN reset ACK count
count
AN reset Integer AN reset request count
request count
RX Integer RX resequencing queue size
resequencing
queue size
RX NACK abort Integer RX NACK abort queue size
queue size
RX delayed Integer RX delayed NACK queue size
NACK queue
size
#QN instances Integer Number of QN instances
#Params/QN Integer Parameters per QN instance
instance
Scheduler Integer Scheduler group ID
group ID
Number of Integer Number of carriers in the QN instance
carriers in the
QN instance
QN ID Integer QN ID
RX new data Integer RX new data bytes/QN
bytes/QN Minimum value: 0
Unit: byte
RX new data Integer RX new data frames/QN
frames/QN
Quick Integer QN quick NACK indication count/QN
NACKs/QN

Multilink multi-flow RLP reverse link statistics (MLMFRLPRLSTATS)

Event ID MLMFRLPRLSTATS
Cellular systems EVDO
Record state Always
Description Recorded when parameters change.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO

Parameters for EVDO |Top|

Name Type Description
#Header params Integer Number of header parameters
Link flow ID Integer Link flow ID
Route number Integer Route number
Packet stream Integer Packet stream
Whether link flow is packet-based.
0 = Non-packet based
1 = Packet based
Sequence type Integer Sequence type
Whether link flow is doing segment-based sequencing.
0 = Non-segment based sequencing
1 = Segment based sequencing
Flow protocol Integer Flow protocol
Route protocol Integer Route protocol
SAR sequence Integer SAR sequence length
length
TX new data Integer TX new data bytes
bytes Minimum value: 0
Unit: byte
TX new data Integer TX new data units
units
TX first data unit Integer TX first data unit frames
frames
TX last data unit Integer TX last data unit frames
frames
PL NACK Integer PL NACK indications
indications
New data units Integer New data units indicated by PL NACK indication
indicated by PL
NACK indication
Retransmitted Integer Retransmitted data units indicated by PL NACK indication
data units
indicated by PL
NACK indication
Out-of-order Integer Out-of-order transmissions
transmissions
Out-of-order Integer Out-of-order bytes
bytes Minimum value: 0
Unit: byte
HL packes Integer HL packes dropped
dropped Number of higher layer packets dropped due to TransmitAbortTimer.
HL bytes Integer HL bytes dropped
dropped
NACK records Integer NACK records received
received
Requested data Integer Requested data units
units
Retransmitted Integer Retransmitted data units
data units
Retransmitted Integer Retransmitted bytes
bytes Minimum value: 0
Unit: byte
Retransmitted Integer Retransmitted data units not found
data units not
found
AT reset request Integer AT reset request count
count
AN reset Integer AN reset request count
request count
Max TX queue Integer Max TX queue size
size
Max Integer Max retransmission queue size
retransmission
queue size
Max new data Integer Max new data handles
handles Maximum number of new data handles used per slot within the logging
interval.
Max retransmit Integer Max retransmit data handles
data handles Maximum number of retransmit data handles used per slot within the
logging interval.

Multilink multi-flow RLP RX processing (MMRLPRXPROCESSING)

Event ID MMRLPRXPROCESSING
Cellular systems EVDO
Record state Always
Description Recorded when parameters change.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO

Parameters for EVDO |Top|

Name Type Description
#Header Integer Number of header parameters
params
RLP event Integer RLP event type
type 0 = Packet reception or forward link
1 = RLP reset
2 = Abort
3 = Flush message received
Link flow ID Integer Link flow ID
Route Integer Route number
number
V(n) before Integer RLP V(n) before processing
V(n) after Integer RLP V(n) after processing
V(r) before Integer RLP V(r) before processing
V(r) after Integer RLP V(r) after processing
RLP link ID Integer RLP link ID
RLP Integer RLP scheduler group ID
scheduler
group ID
QN sequence Integer QN sequence number included
number
included
Data units Integer Data units
SAR Integer SAR sequence number
sequence
number
QN sequence Integer QN sequence number
number
SAR Integer SAR sequence number short
sequence
number short

Multi carrier forward link packet header info (MCFLPACKETINFO)

Event ID MCFLPACKETINFO
Cellular systems EVDO
Record state Always
Description Recorded when parameters change.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO

Parameters for EVDO |Top|

Name Type Description
#Header params Integer Number of header parameters
#Packets Integer Number of packets
#Params/packet Integer Number of parameters per packet
Band Integer Band
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
Packet carrier Integer Packet carrier number
Link ID Integer Link ID
Slot to decode Integer Slot to decode
CRC status Integer CRC status
0 = Failed
1 = Passed
2 = False pass
CRC length Integer CRC length
0 = 16 bits
1 = 24 bits
Packet type Integer Packet type
0 = Unicast
Sing user traffic channel packet.
1 = Multicast 0
Multiuser Traffic Channel packet decoded at MAC index
MUP_PREAMBLE_BASE.
2 = Multicast 1
Multiuser Traffic Channel packet decoded at MAC index
MUP_PREAMBLE_BASE+1.
3 = Multicast 2
Multiuser Traffic Channel packet decoded at MAC index
MUP_PREAMBLE_BASE+2.
4 = Multicast 3
Multiuser Traffic Channel packet decoded at MAC index
MUP_PREAMBLE_BASE+3.
5 = Multicast 4
Multiuser Traffic Channel packet decoded at MAC index
MUP_PREAMBLE_BASE+4.
6 = Control Rel 0
Release 0 (std) control channel packet.
7 = Control Rel A
Release A (short) control channel packet.
8 = Control Rel A user defined
Release A control channel packet received at user defined short
packet MAC index.
9 = Broadcast
10 = Enhanced broadcast
11 = Platinum broadcast

Searcher status (SEARCHERSTATUS)

Event ID SEARCHERSTATUS
Cellular systems cdmaOne,CDMA 1x,EVDO
Record state Always
Description Recorded when parameter sample is received from the device.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for cdmaOne and CDMA 1x |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
10 = cdmaOne
11 = CDMA 1x
12 = EVDO

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
#Header params Integer Number of header parameters
Searcher state Integer Searcher state
0 = Raw initialization state
1 = Deep sleep in start state
2 = Initial state for CDMA operation
3 = Acquisition of the pilot channel
4 = Reception of the sync channel
5 = Transition from sync to paging channel
6 = Operation on the paging channel
7 = Slotted mode sleep state
8 = Operation on the traffic channel
9 = Return from paging or traffic to sync channel
10 = Operation in PCG state
11 = Power up state
Queue Integer Searcher queue
0 = High priority queue 0
1 = Low priority queue 0
2 = High priority queue 1
Priority Integer Searcher priority
Freq. offset Float Searcher frequency offset
Unit: Hz
#Pilots Integer Number of pilots
#Params/pilot Integer Number of parameters per pilot
PN Integer Pilot number
Range: 0 – 511
Set Integer Searcher set information
0 = Active set
1 = Candidate set
2 = Neighbor set
3 = Remaining set
4 = Precandidate set
Ant. config Integer Searcher antenna configuration
0 = Antenna 0
1 = Antenna 1
2 = Dual antenna
Searcher QOF Integer Searcher QOF
Range: 0 – 3
Coherent Integer Searcher coherent truncation control
truncation Range: 1 – 8
control Unit: bit
Coherent Integer Searcher coherent integration length
integration Range: 0 – 4096
length Unit: chip
Noncoherent Integer Searcher noncoherent integration length
integration Range: 0 – 128
length Unit: chip
Pilot phase Integer Searcher pilot phase
Range: 0 – 7
Walsh code Integer Searcher walsh code
Range: 0 – 511
Window start Float Searcher pilot window start
Range: 0 – 32767
Unit: chip
Window size Float Searcher pilot window size
Range: 0 – 32767
Unit: chip
#Peaks Integer Number of peaks
#Params/peak Integer Number of parameters per peak
Position Float Searcher peak position
Unit: chip
Energy Float Searcher peak energy
Unit: dB

Parameters for EVDO |Top|

Name Type Description
#Header params Integer Number of header parameters
Searcher state Integer Searcher state
0 = Start
1 = Acquisition
2 = Synchronization
3 = Idle
4 = Idle suspended
5 = Idle broadcast
6 = Idle OFS
7 = Broadcast access
8 = Sleep
9 = Reacquisition
10 = Traffic
11 = Traffic suspended
12 = Traffic OFS
Searcher Integer Searcher window size
window size
Ch Integer Channel number
Band Integer Band
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
MSTR Integer Searcher MSTR
Equalizer status Integer Searcher equalizer status
0 = Off
1 = On
#Pilots Integer Number of pilots
#Params/pilot Integer Number of parameters per pilot
PN Integer Pilot number
Range: 0 – 511
Set Integer Searcher set information
0 = Active set
1 = Candidate set
2 = Neighbor set
3 = Remaining set
4 = Empty set
Ant. config Integer Searcher antenna configuration
0 = Antenna 0
1 = Antenna 1
2 = Dual antenna
Searcher Float Searcher window center
window center Unit: chip
Searcher Float Searcher earliest peak
earliest peak Unit: chip
#Peaks Integer Number of peaks
#Params/peak Integer Number of parameters per peak
Position Float Searcher peak position
Unit: chip
C/I Float Searcher peak C/I
Unit: dB

Message error rate (MER)

Event ID MER
Cellular systems TETRA
Record state Call connection state
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor
|Parameters |Parameters for TETRA |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
2 = TETRA

Parameters for TETRA |Top|

Name Type Description
MER Float Message error rate
Range: 0 – 100
Unit: %

DVB information (DVBI)

Event ID DVBI
Cellular systems DVB-H
Record state DVB-H state
Description Recorded when DVB-H channel configuration changes.
Tools Nemo Outdoor
|Parameters |Parameters for DVB-H |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
65 = DVB-H

Parameters for DVB-H |Top|

Name Type Description
Service state Integer DVB-H service state
1 = Locked
2 = Not locked
Frequency Float DVB-H frequency
Unit: MHz
Bandwidth Float DVB-H bandwidth
Cell ID Integer DVB-H cell ID
Tx mode Integer DVB-H transmission mode
Also known as OFDM mode or FFT length.
2 = 2k
4 = 4k
8 = 8k
Modulation Integer DVB-H modulation
1 = QPSK
2 = 16QAM
3 = 64QAM
Code rate LP Integer DVB-H code rate low priority
1 = 1/2
2 = 2/3
3 = 3/4
4 = 5/6
5 = 7/8
Code rate HP Integer DVB-H code rate high priority
0 = Not used
1 = 1/2
2 = 2/3
3 = 3/4
4 = 5/6
5 = 7/8
Guard time Integer DVB-H guard time
1 = 1/4
2 = 1/8
3 = 1/16
4 = 1/32
MPE-FEC code rate LP Integer DVB-H MPE-FEC code rate low priority
0 = Not used
1 = 1/2
2 = 2/3
3 = 3/4
4 = 5/6
5 = 7/8
MPE-FEC code rate HP Integer DVB-H MPE-FEC code rate high priority
0 = Not used
1 = 1/2
2 = 2/3
3 = 3/4
4 = 5/6
5 = 7/8
Hierarchy Integer DVB-H hierarchy
0 = Disabled
1 = Enabled

DVB frame error rate (DVBFER)

Event ID DVBFER
Cellular systems DVB-H
Record state DVB-H state
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor
|Parameters |Parameters for DVB-H |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
65 = DVB-H

Parameters for DVB-H |Top|

Name Type Description
FER Float DVB-H FER before FEC
Range: 0 – 100
Unit: %
MFER Float DVB-H FER after FEC
Range: 0 – 100
Unit: %
Frame count Integer DVB-H frame count

DVB bit error rate (DVBBER)

Event ID DVBBER
Cellular systems DVB-H
Record state DVB-H state
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor
|Parameters |Parameters for DVB-H |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
65 = DVB-H

Parameters for DVB-H |Top|

Name Type Description
BER Float DVB-H BER before viterbi
Range: 0 – 100
Unit: %
VBER Float DVB-H BER after viterbi
Range: 0 – 100
Unit: %
DVB RX level (DVBRXL)
Event ID DVBRXL
Cellular systems DVB-H
Record state DVB-H state
Description Recorded when parameter sample is received from the device.
Tools Nemo Outdoor
|Parameters |Parameters for DVB-H |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
65 = DVB-H

Parameters for DVB-H |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Frequency Float DVB-H frequency
Unit: MHz
RxLev Float DVB-H Rx level
Range: −111 – −10
Unit: dBm
C/N Float DVB-H carrier to noise ratio
Range: 0 – 40
Unit: dB
Signal quality Float DVB-H signal quality
Range: 0 – 100
Unit: %

DVB throughput (DVBRATE)

Event ID DVBRATE
Cellular systems DVB-H
Record state DVB-H state
Description Recorded when parameter sample is received from the device.
Tools Nemo Handy
|Parameters |Parameters for DVB-H |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
65 = DVB-H

Parameters for DVB-H |Top|

Name Type Description
DVB-H rate Integer DVB-H throughput
Minimum value: 0
Unit: bit/s

Start scanning (STARTSCAN)

Event ID STARTSCAN
Cellular systems All
Record state Scanning state
Description Recorded when a scanning session is begun and the scanning state initiated.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Scanning context ID Context Scanning context ID

Stop scanning (STOPSCAN)

Event ID STOPSCAN
Cellular systems All
Record state Scanning state
Description Recorded when a scanning session is stopped and the scanning state terminated.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Scanning context ID Context Scanning context ID

Scanning configuration (SCANCONFIG)

Event ID SCANCONFIG
Cellular systems All
Record state Scanning state
Description Recorded at the beginning of the scanning session. Defines scanning settings.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM frequency and band scanning |Parameters for UMTS frequency scanning |Parameters for LTE frequency scanning
|Parameters for cdmaOne, CDMA 1x, and EVDO frequency scanning |Parameters for WiMAX frequency scanning |Parameters for iDEN frequency scanning
|Parameters for UMTS pilot and band scanning |Parameters for cdmaOne, CDMA 1x, and EVDO pilot and band scanning |Parameters for LTE OFDM and
band scanning |Parameters for NB-IoT OFDM |Parameters for WLAN OFDM and band scanning |Parameters for WiMAX scanning |Parameters for DVB-H
scanning |Parameters for spectrum scanning |

Parameters |Top|
Name Type Description
Scanning context Context Scanning context ID
ID
#Header params Integer Number of header parameters
Scanning sets Integer Scanning sets
#Params/set Integer Parameters per scanning set
Scanning type Integer Scanning type
1 = GSM frequency scanning
5 = UMTS FDD frequency scanning
6 = UMTS TD-SCDMA frequency scanning
7 = LTE FDD frequency scanning
8 = LTE TDD frequency scanning
10 = cdmaOne frequency scanning
11 = CDMA 1x frequency scanning
12 = EVDO frequency scanning
25 = WiMAX frequency scanning
55 = iDEN frequency scanning
105 = UMTS FDD pilot scanning
106 = UMTS TD-SCDMA pilot scanning
110 = cdmaOne pilot scanning
111 = CDMA 1x pilot scanning
112 = EVDO pilot scanning
207 = LTE FDD OFDM scanning
208 = LTE TDD OFDM scanning
220 = WLAN OFDM scanning
221 = LTE NB-IoT OFDM scanning
225 = WiMAX OFDM scanning
265 = DVB-H OFDM scanning
300 = Spectrum scanning
10001 = GSM band scanning
10105 = UMTS FDD band scanning
10106 = UMTS TD-SCDMA band scanning
10110 = cdmaOne band scanning
10111 = CDMA 1x band scanning
10112 = EVDO band scanning
10207 = LTE FDD band scanning
10208 = LTE TDD band scanning
10220 = WLAN band scanning

Parameters for GSM frequency and band scanning |Top|

Name Type Description
Band Integer Band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM
Channels String Channels
Defines the measured channels. In the format comma separates
different values and hyphen can be used to mark the range, e.g.
10,11,50-100.
Scanning Integer Scanning options
options Note that this parameter is bitfield.
0 = None
1 = BSIC decoding
2 = Cell information decoding
1024 = C/I, SIR, or CINR
Bandwidth Integer Channel bandwidth
Unit: Hz
Measurement Integer Measurement period
period Minimum value: 0
Unit: ms
Filter mode Integer Filter mode
Defines the method that is used for sample filtering.
1 = Average
2 = Maximum
3 = Minimum
110 = 10 percentile
120 = 20 percentile
130 = 30 percentile
140 = 40 percentile
150 = 50 percentile
160 = 60 percentile
170 = 70 percentile
180 = 80 percentile
190 = 90 percentile
Filter samples Integer Filter samples
Defines how many samples are filtered per reported measurement
result.
Sampling ratio Integer Sampling ratio
Defines every Nth measurement result that is reported.
Top N Integer Top N
Only the best top N parameters are reported.
BSIC decoding Float BSIC decoding threshold
threshold This threshold has to be exceeded before BSIC decoding is attempted.
Unit: dBm
Dwelling time Integer Dwelling time (GSM)
Defines for how long BCCH channel is attempted to be decoded.
Minimum value: 0
Unit: frame

Parameters for UMTS frequency scanning |Top|

Parameters for LTE frequency scanning |Top|

Parameters for cdmaOne, CDMA 1x, and EVDO frequency scanning |Top|
Name Type Description
Band Integer Band
100000 = cdmaOne 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
100001 = cdmaOne 1900 band 1
North American PCS 1900 MHz band.
100002 = cdmaOne 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
100003 = cdmaOne 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
100004 = cdmaOne 1800 Korean band 4
Korean PCS 1800 MHz band.
100005 = cdmaOne 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
100006 = cdmaOne 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
100007 = cdmaOne 700 band 7
North American cellular 700 MHz band.
100008 = cdmaOne 1800 band 8
1800 MHz band.
100009 = cdmaOne 900 band 9
900 MHz band.
100010 = cdmaOne 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
100011 = cdmaOne 400 PAMR band 11
European PAMR 400 MHz band.
100012 = cdmaOne 800 PAMR band 12
European PAMR 800 MHz band.
100013 = cdmaOne 2500 band 13
2.5 GHz IMT-2000 extension.
100014 = cdmaOne 1900 band 14
US PCS 1.9 GHz.
100015 = cdmaOne 2100 AWS band 15
100016 = cdmaOne 2500 band 16
US 2.5 GHz.
100018 = cdmaOne 700 public safety band 18
100019 = cdmaOne 700 lower band 19
100020 = cdmaOne 1500 L-band band 20
100021 = cdmaOne 2000 S-band band 21
109999 = cdmaOne
110000 = CDMA 1x 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
110001 = CDMA 1x 1900 band 1
North American PCS 1900 MHz band.
110002 = CDMA 1x 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
110003 = CDMA 1x 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
110004 = CDMA 1x 1800 Korean band 4
Korean PCS 1800 MHz band.
110005 = CDMA 1x 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
110006 = CDMA 1x 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
110007 = CDMA 1x 700 band 7
North American cellular 700 MHz band.
110008 = CDMA 1x 1800 band 8
1800 MHz band.
110009 = CDMA 1x 900 band 9
900 MHz band.
110010 = CDMA 1x 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
110011 = CDMA 1x 400 PAMR band 11
European PAMR 400 MHz band.
110012 = CDMA 1x 800 PAMR band 12
European PAMR 800 MHz band.
110013 = CDMA 1x 2500 band 13
2.5 GHz IMT-2000 extension.
110014 = CDMA 1x 1900 band 14
US PCS 1.9 GHz.
110015 = CDMA 1x 2100 AWS band 15
110016 = CDMA 1x 2500 band 16
US 2.5 GHz.
110018 = CDMA 1x 700 public safety band 18
110019 = CDMA 1x 700 lower band 19
110020 = CDMA 1x 1500 L-band band 20
110021 = CDMA 1x 2000 S-band band 21
119999 = CDMA 1x
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
Channels String Channels
Defines the measured channels. In the format comma separates
different values and hyphen can be used to mark the range, e.g.
10,11,50-100.
Scanning Integer Scanning options
options Note that this parameter is bitfield.
0 = None
Bandwidth Integer Channel bandwidth
Unit: Hz
Measurement Integer Measurement period
period Minimum value: 0
Unit: ms
Filter mode Integer Filter mode
Defines the method that is used for sample filtering.
1 = Average
2 = Maximum
3 = Minimum
110 = 10 percentile
120 = 20 percentile
130 = 30 percentile
140 = 40 percentile
150 = 50 percentile
160 = 60 percentile
170 = 70 percentile
180 = 80 percentile
190 = 90 percentile
Filter samples Integer Filter samples
Defines how many samples are filtered per reported measurement
result.
Sampling ratio Integer Sampling ratio
Defines every Nth measurement result that is reported.
Top N Integer Top N
Only the best top N parameters are reported.

Parameters for WiMAX frequency scanning |Top|

Name Type Description
Band Integer Band
259999 = WiMAX
Frequencies String Frequencies
Defines the measured frequencies. In the format comma separtes
different values, hyphen can be used to mark the range and dot is used
for decimal numbers, e.g. 1800000000.0-190000000.0.
Unit: Hz
Scanning Integer Scanning options
options Note that this parameter is bitfield.
0 = None
Bandwidth Integer Channel bandwidth
Unit: Hz
Measurement Integer Measurement period
period Minimum value: 0
Unit: ms
Filter mode Integer Filter mode
Defines the method that is used for sample filtering.
1 = Average
2 = Maximum
3 = Minimum
110 = 10 percentile
120 = 20 percentile
130 = 30 percentile
140 = 40 percentile
150 = 50 percentile
160 = 60 percentile
170 = 70 percentile
180 = 80 percentile
190 = 90 percentile
Filter samples Integer Filter samples
Defines how many samples are filtered per reported measurement
result.
Sampling ratio Integer Sampling ratio
Defines every Nth measurement result that is reported.
Top N Integer Top N
Only the best top N parameters are reported.

Parameters for iDEN frequency scanning |Top|

Name Type Description
Band Integer Band
550001 = iDEN proprietary
550002 = iDEN 800 standard
550003 = iDEN 800 extended
550004 = iDEN 900
550005 = iDEN 1500
559999 = iDEN
Channels String Channels
Defines the measured channels. In the format comma separates
different values and hyphen can be used to mark the range, e.g.
10,11,50-100.

Parameters for UMTS pilot and band scanning |Top|

Name Type Description
Band Integer Band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA
Channels String Channels
Defines the measured channels. In the format comma separates
different values and hyphen can be used to mark the range, e.g.
10,11,50-100.
Scanning Integer Scanning options
options Note that this parameter is bitfield.
0 = None
2 = Cell information decoding
4 = SI or overhead decoding
8 = Neighbor list decoding
16 = Missing neighbor detection
1024 = C/I, SIR, or CINR
2048 = Finger
4096 = P-SCH
8192 = S-SCH
65536 = Delay
Preamble delay, time of arrival, or time offset.
131072 = Delay spread
262144 = Delay profile
Reserved Integer Reserved
Measurement Integer Measurement period
period Minimum value: 0
Unit: ms
Filter mode Integer Filter mode
Defines the method that is used for sample filtering.
1 = Average
2 = Maximum
3 = Minimum
110 = 10 percentile
120 = 20 percentile
130 = 30 percentile
140 = 40 percentile
150 = 50 percentile
160 = 60 percentile
170 = 70 percentile
180 = 80 percentile
190 = 90 percentile
Filter samples Integer Filter samples
Defines how many samples are filtered per reported measurement
result.
Sampling ratio Integer Sampling ratio
Defines every Nth measurement result that is reported.
Top N Integer Top N
Only the best top N parameters are reported.
Ec/N0 threshold Float Ec/N0 threshold
This threshold has to be exceeded before Ec/N0 result is reported.
Unit: dB
Finger Integer Finger combining mode
combining Defines the method that is used to combine measured finger results to
mode one measurement result.
1 = Peak
2 = Aggregate
Pilot Integer Pilot measurement mode
measurement 1 = High speed
mode 2 = High dynamic
Dwelling time Integer Dwelling time (UMTS)
Defines for how long BCH channel is attempted to be decoded.
Minimum value: 0
Unit: ms
Parameters for cdmaOne, CDMA 1x, and EVDO pilot and band scanning |Top|
Name Type Description
Band Integer Band
100000 = cdmaOne 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
100001 = cdmaOne 1900 band 1
North American PCS 1900 MHz band.
100002 = cdmaOne 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
100003 = cdmaOne 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
100004 = cdmaOne 1800 Korean band 4
Korean PCS 1800 MHz band.
100005 = cdmaOne 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
100006 = cdmaOne 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
100007 = cdmaOne 700 band 7
North American cellular 700 MHz band.
100008 = cdmaOne 1800 band 8
1800 MHz band.
100009 = cdmaOne 900 band 9
900 MHz band.
100010 = cdmaOne 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
100011 = cdmaOne 400 PAMR band 11
European PAMR 400 MHz band.
100012 = cdmaOne 800 PAMR band 12
European PAMR 800 MHz band.
100013 = cdmaOne 2500 band 13
2.5 GHz IMT-2000 extension.
100014 = cdmaOne 1900 band 14
US PCS 1.9 GHz.
100015 = cdmaOne 2100 AWS band 15
100016 = cdmaOne 2500 band 16
US 2.5 GHz.
100018 = cdmaOne 700 public safety band 18
100019 = cdmaOne 700 lower band 19
100020 = cdmaOne 1500 L-band band 20
100021 = cdmaOne 2000 S-band band 21
109999 = cdmaOne
110000 = CDMA 1x 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
110001 = CDMA 1x 1900 band 1
North American PCS 1900 MHz band.
110002 = CDMA 1x 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
110003 = CDMA 1x 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
110004 = CDMA 1x 1800 Korean band 4
Korean PCS 1800 MHz band.
110005 = CDMA 1x 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
110006 = CDMA 1x 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
110007 = CDMA 1x 700 band 7
North American cellular 700 MHz band.
110008 = CDMA 1x 1800 band 8
1800 MHz band.
110009 = CDMA 1x 900 band 9
900 MHz band.
110010 = CDMA 1x 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
110011 = CDMA 1x 400 PAMR band 11
European PAMR 400 MHz band.
110012 = CDMA 1x 800 PAMR band 12
European PAMR 800 MHz band.
110013 = CDMA 1x 2500 band 13
2.5 GHz IMT-2000 extension.
110014 = CDMA 1x 1900 band 14
US PCS 1.9 GHz.
110015 = CDMA 1x 2100 AWS band 15
110016 = CDMA 1x 2500 band 16
US 2.5 GHz.
110018 = CDMA 1x 700 public safety band 18
110019 = CDMA 1x 700 lower band 19
110020 = CDMA 1x 1500 L-band band 20
110021 = CDMA 1x 2000 S-band band 21
119999 = CDMA 1x
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
Channels String Channels
Defines the measured channels. In the format comma separates
different values and hyphen can be used to mark the range, e.g.
10,11,50-100.
Scanning Integer Scanning options
options Note that this parameter is bitfield.
0 = None
4 = SI or overhead decoding
65536 = Delay
Preamble delay, time of arrival, or time offset.
131072 = Delay spread
Reserved Integer Reserved
Measurement Integer Measurement period
period Minimum value: 0
Unit: ms
Filter mode Integer Filter mode
Defines the method that is used for sample filtering.
1 = Average
2 = Maximum
3 = Minimum
110 = 10 percentile
120 = 20 percentile
130 = 30 percentile
140 = 40 percentile
150 = 50 percentile
160 = 60 percentile
170 = 70 percentile
180 = 80 percentile
190 = 90 percentile
Filter samples Integer Filter samples
Defines how many samples are filtered per reported measurement
result.
Sampling ratio Integer Sampling ratio
Defines every Nth measurement result that is reported.
Top N Integer Top N
Only the best top N parameters are reported.
Ec/I0 threshold Float Ec/I0 threshold
This threshold has to be exceeded before Ec/I0 result is reported.
Unit: dB
Finger Integer Finger combining mode
combining Defines the method that is used to combine measured finger results to
mode one measurement result.
1 = Peak
2 = Aggregate
Pilot search Integer Pilot search mode
mode 1 = Standard
2 = Wide
3 = Very wide
Pilot window Integer Pilot window mode
mode 1 = Offset
2 = Centered
3 = Edge
Correlator Integer Correlator
Pilot increment Integer Pilot increment

Parameters for LTE OFDM and band scanning |Top|

Parameters for NB-IoT OFDM |Top|

Parameters for WLAN OFDM and band scanning |Top|

Name Type Description
Band Integer Band
200001 = WLAN 2.4 GHz
200002 = WLAN 3.6 GHz
200003 = WLAN 4.9 GHz
200004 = WLAN 5.0 GHz
209999 = WLAN
Channels String Channels
Defines the measured channels. In the format comma separates
different values and hyphen can be used to mark the range, e.g.
10,11,50-100.
Scanning Integer Scanning options
options Note that this parameter is bitfield.
0 = None
Resolution Integer Resolution bandwidth
bandwidth To be able to scan large bandwidth spectrums, the total sweep
bandwidth must be divided into smaller parts. The resolution bandwidth
defines the size of the smaller parts, each of which is scanned
separately.
Unit: Hz
Measurement Integer Measurement period
period Minimum value: 0
Unit: ms
Filter mode Integer Filter mode
Defines the method that is used for sample filtering.
1 = Average
2 = Maximum
3 = Minimum
110 = 10 percentile
120 = 20 percentile
130 = 30 percentile
140 = 40 percentile
150 = 50 percentile
160 = 60 percentile
170 = 70 percentile
180 = 80 percentile
190 = 90 percentile
Filter samples Integer Filter samples
Defines how many samples are filtered per reported measurement
result.
Sampling ratio Integer Sampling ratio
Defines every Nth measurement result that is reported.
Top N Integer Top N
Only the best top N parameters are reported.

Parameters for WiMAX scanning |Top|

Name Type Description
Band Integer Band
259999 = WiMAX
Frequencies String Frequencies
Defines the measured frequencies. In the format comma separtes
different values, hyphen can be used to mark the range and dot is used
for decimal numbers, e.g. 1800000000.0-190000000.0.
Unit: Hz
Scanning Integer Scanning options
options Note that this parameter is bitfield.
0 = None
Resolution Integer Resolution bandwidth
bandwidth To be able to scan large bandwidth spectrums, the total sweep
bandwidth must be divided into smaller parts. The resolution bandwidth
defines the size of the smaller parts, each of which is scanned
separately.
Unit: Hz
Measurement Integer Measurement period
period Minimum value: 0
Unit: ms
Filter mode Integer Filter mode
Defines the method that is used for sample filtering.
1 = Average
2 = Maximum
3 = Minimum
110 = 10 percentile
120 = 20 percentile
130 = 30 percentile
140 = 40 percentile
150 = 50 percentile
160 = 60 percentile
170 = 70 percentile
180 = 80 percentile
190 = 90 percentile
Filter samples Integer Filter samples
Defines how many samples are filtered per reported measurement
result.
Sampling ratio Integer Sampling ratio
Defines every Nth measurement result that is reported.
Top N Integer Top N
Only the best top N parameters are reported.
Reuse factor Integer Reuse factor
1 = Reuse factor 1
3 = Reuse factor 3
Pilot Integer Pilot measurement mode
measurement 1 = High speed
mode 2 = High dynamic

Parameters for DVB-H scanning |Top|

Name Type Description
Frequencies String Frequencies
Defines the measured frequencies. In the format comma separtes
different values, hyphen can be used to mark the range and dot is used
for decimal numbers, e.g. 1800000000.0-190000000.0.
Unit: Hz
Scanning Integer Scanning options
options Note that this parameter is bitfield.
0 = None
Resolution Integer Resolution bandwidth
bandwidth To be able to scan large bandwidth spectrums, the total sweep
bandwidth must be divided into smaller parts. The resolution bandwidth
defines the size of the smaller parts, each of which is scanned
separately.
Unit: Hz
Measurement Integer Measurement period
period Minimum value: 0
Unit: ms
Filter mode Integer Filter mode
Defines the method that is used for sample filtering.
1 = Average
2 = Maximum
3 = Minimum
110 = 10 percentile
120 = 20 percentile
130 = 30 percentile
140 = 40 percentile
150 = 50 percentile
160 = 60 percentile
170 = 70 percentile
180 = 80 percentile
190 = 90 percentile
Filter samples Integer Filter samples
Defines how many samples are filtered per reported measurement
result.
Sampling ratio Integer Sampling ratio
Defines every Nth measurement result that is reported.
Top N Integer Top N
Only the best top N parameters are reported.

Parameters for spectrum scanning |Top|

Frequency scanning results (FREQSCAN)

Event ID FREQSCAN
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,cdmaOne,CDMA
1x,EVDO,AMPS,NAMPS,DAMPS,WiMAX,iDEN
Record state Scanning state
Description Recorded when parameter sample is received from the device.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |Parameters for LTE |Parameters for cdmaOne and
CDMA 1x |Parameters for EVDO |Parameters for WiMAX |Parameters for AMPS and NAMPS |Parameters for DAMPS |Parameters for iDEN |

Parameters for GSM |Top|

Parameters for UMTS FDD |Top|

Name Type Description
#Header Integer Number of header parameters
params
Band Integer Band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Ch Integer Channel number
RSSI Float Carrier RSSI (frequency scanning mode)
Carrier power including thermal noise, co-carrier and adjacent carrier
interference, and noise generated in the receiver.
Range: −140 – −10
Unit: dBm

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
#Header Integer Number of header parameters
params
Band Integer Band
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Ch Integer Channel number
RSSI Float Carrier RSSI (frequency scanning mode)
Carrier power including thermal noise, co-carrier and adjacent carrier
interference, and noise generated in the receiver.
Range: −140 – −10
Unit: dBm

Parameters for LTE |Top|

Name Type Description
#Header Integer Number of header parameters
params
Band Integer Band
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Ch Integer Channel number
RSSI Float Carrier RSSI (frequency scanning mode)
Carrier power including thermal noise, co-carrier and adjacent carrier
interference, and noise generated in the receiver.
Range: −140 – −10
Unit: dBm

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
#Header Integer Number of header parameters
params
Band Integer Band
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Ch Integer Channel number
RSSI Float RSSI
Wide-band carrier power including thermal noise, co-carrier and adjacent
carrier interference, and noise generated in the receiver.
Range: −140 – 0
Unit: dBm

Parameters for EVDO |Top|

Name Type Description
#Header Integer Number of header parameters
params
Band Integer Band
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Ch Integer Channel number
RSSI Float RSSI
Wide-band carrier power including thermal noise, co-carrier and adjacent
carrier interference, and noise generated in the receiver.
Range: −140 – 0
Unit: dBm

Parameters for WiMAX |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Frequency Float WiMAX frequency
Unit: MHz
RSSI Float Carrier RSSI (frequency scanning mode)
Wide-band power of all subcarriers including thermal noise, co-carrier
and adjacent carrier interference, and noise generated in the receiver.
Unit: dBm

Parameters for AMPS and NAMPS |Top|

Parameters for DAMPS |Top|

Parameters for iDEN |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Ch Integer Channel number
CC Integer Color code
Range: 0 – 15
RxLev Float RX level
Range: −130 – −30
Unit: dBm
SQE Float SQE
Range: 0 – 50
Unit: dB
N+I Float Noise + interference level
Range: −130 – 30
Unit: dBm

Spectrum scanning result (SPECTRUMSCAN)

Event ID SPECTRUMSCAN
Cellular systems All
Record state Scanning state
Description Recorded when parameter sample is received from the device. Separate measurement
event is logged for each scanning mode, bandwidth, and frequency.
Tools Nemo Outdoor
|Parameters |Parameters for spectrum scanning |

Parameters |Top|
Name Type Description
Scanning mode Integer Scanning mode
1 = Spectrum scanning

Parameters for spectrum scanning |Top|

Name Type Description
#Header params Integer Number of header parameters
Bandwidth Float Resolution bandwidth
To be able to scan large bandwidth spectrums, the total sweep
bandwidth must be divided into smaller parts. The resolution
bandwidth defines the size of the smaller parts, each of which is
scanned separately.
Unit: Hz
Sweep bandwidth Float Sweep bandwidth
The total scanned bandwidth that is divided into smaller parts before
the scanning.
Unit: MHz
Sweep frequency Float Sweep center frequency
Unit: MHz
Sweep average Float Sweep average RX level
RX level The linear average of RX levels measured over bandwidth of
'resolution bandwidth'.
Range: −160 – −10
Unit: dBm
Sweep minimum Float Sweep minimum RX level
RX level Minimum RX levels measured over bandwidth of 'resolution
bandwidth'.
Range: −160 – −10
Unit: dBm
Sweep maximum Float Sweep maximum RX level
RX level Maximum RX levels measured over bandwidth of 'resolution
bandwidth'.
Range: −160 – −10
Unit: dBm
Sweep total RX Float Sweep total RX level
level Total RX level measured over full spectrum bandwidth.
Range: −160 – 0
Unit: dBm
#Frequencies Integer Number of frequencies
#Params/frequency Integer #Params/frequency
Frequency Float Frequency
Center frequency of the measured sample.
Unit: MHz
RX level Float RX level
Range: −160 – −10
Unit: dBm

Pilot scanning results (PILOTSCAN)

Event ID PILOTSCAN
Cellular systems UMTS FDD,UMTS TD-SCDMA,cdmaOne,CDMA 1x,EVDO
Record state Scanning state
Description Recorded when parameter sample is received from the device. Separate measurement
event is logged for each system, channel number, and channel type.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |Parameters for cdmaOne and CDMA 1x |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA
10 = cdmaOne
11 = CDMA 1x
12 = EVDO

Parameters for UMTS FDD |Top|

Name Type Description
#Header Integer Number of header parameters
params
Ch Integer Channel number
Ch type Integer UMTS channel type
1 = CPICH
2 = P SCH
3 = S SCH
4 = CPICH (TX diversity)
5 = PPCH
RSSI Float Carrier RSSI (pilot scanning mode)
Wide-band carrier power including thermal noise, co-carrier and adjacent
carrier interference, and noise generated in the receiver.
Range: −140 – −10
Unit: dBm
Band Integer Band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
SC Integer Scrambling code
Range: 0 – 511
Ec/N0 Float Ec/N0
The average received chip power to noise ratio of the channel specified
by the Ch type parameter.
Range: −30 – 0
Unit: dB
RSCP Float RSCP
The received signal code power of the channel specified by the Ch type
parameter.
Range: −150 – −20
Unit: dBm
SIR Float Signal-to-interference ratio CPICH
Range: 0 – 30
Delay Float Delay
The time difference between actual received signal and expected point
in time derived from the GPS time (when available). This parameter is
also known as time offset.
Range: 0 – 38400
Unit: chip
Delay spread Float Delay spread
Time between first and last pilot Ec/N0 peak above the PN threshold of
the channel specified by the Ch type parameter.
Unit: chip

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
#Header Integer Number of header parameters
params
Channel type Integer Channel type
1 = PCCPCH
2 = Sync DL
Band Integer Band
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Ch Integer Channel number
Cell params Integer Cell parameters ID
ID Range: 0 – 127
Ec/I0 Float Ec/I0
The received energy per chip divided by the relevant measured power
density (noise and signal) in the wide band.
Range: −30 – 0
Unit: dB
Time offset Float Time offset
Position of a selected pilot.
Range: 0 – 6500
Unit: chip
SIR Float SIR
Range: −30 – 25
Unit: dB
RSCP Float RSCP
The received signal code power of a single code.
Range: −116 – −20
Unit: dB
RSSI Float Carrier RSSI (pilot scanning mode)
Wide-band carrier power including thermal noise, co-carrier and adjacent
carrier interference, and noise generated in the receiver.
Range: −140 – −10
Unit: dBm

Parameters for cdmaOne and CDMA 1x |Top|

Parameters for EVDO |Top|

Name Type Description
#Header Integer Number of header parameters
params
Ch Integer Channel number
RSSI Float Carrier RSSI (pilot scanning mode)
Wide-band carrier power including thermal noise, co-carrier and adjacent
carrier interference, and noise generated in the receiver.
Range: −140 – −10
Unit: dBm
Band Integer Band
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
PN Integer Pilot number
Range: 0 – 511
Ec/I0 Float Ec/I0
Range: −35 – 3
Unit: dB
Delay Float Delay
The time difference between actual received signal and expected point
in time derived from the GPS time. This parameter is also known as time
offset.
Unit: chip
RSCP Float RSCP
The received signal code power of single code.
Unit: dBm
Delay spread Float Delay spread
The time between the first and the last multi-path peak component inside
the search window above the PN threshold.
Unit: chip

OFDM scanning results (OFDMSCAN)

Event ID OFDMSCAN
Cellular systems WiMAX,DVB-H,LTE FDD,LTE TDD,WLAN
Record state Scanning state
Description Recorded when parameter sample is received from the device. Separate measurement
event is logged for each system, band, channel number, and channel type.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for LTE |Parameters for LTE RS |Parameters for LTE SCH |Parameters for LTE PBCH |Parameters for LTE PMCH |Parameters
for NB-IoT NRS |Parameters for NB-IoT NPSS and NSSS |Parameters for WLAN |Parameters for WiMAX |Parameters for DVB-H |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
20 = WLAN
25 = WiMAX
65 = DVB-H

Parameters for LTE |Top|

Name Type Description
#Header params Integer Number of header parameters
Ch Integer Channel number
Ph. ch type Integer Physical channel or signal type
1 = RS
2 = SCH
3 = PBCH
4 = PMCH
5 = NRS
6 = NPSS
DL BW Integer DL bandwidth
This is the scanned bandwidth when the scanned bandwidth differs
from the system bandwidth.
1 = 180 kHz
Used with NB-IoT.
6 = 1.4 MHz
15 = 3 MHz
25 = 5 MHz
50 = 10 MHz
75 = 15 MHz
100 = 20 MHz
RSSI Float E-UTRAN carrier RSSI
Wide-band power of all subcarriers including thermal noise, co-
carrier and adjacent carrier interference, and noise generated in the
receiver. For the reference signal scanning this is the same as E-
UTRAN carrier RSSI. See 3GPP TS 136.214 subclause 5.1.5.
Unit: dBm
Band Integer Band
Channel raster Integer Channel raster offset
offset With NB-IoT this is used to define offset to the 100 kHz channel
raster. See 3GPP TS 136.101 subclause 5.7.3F.
-3 = Offset -7.5 kHz
-1 = Offset -2.5 kHz
0 = Offset 0 kHz
1 = Offset +2.5 kHz
3 = Offset +7.5 kHz

Parameters for LTE RS |Top|

Name Type Description
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
PCI Integer Physical cell identity
Range: 0 – 503
CP Integer Cyclic prefix DL
1 = Normal 15 kHz
2 = Extended 15 kHz
3 = Extended 7.5 kHz
Antenna ports Integer Detected TX antenna ports
0 = Port 0
1 = Ports 0-1
3 = Ports 0-3
RSRP Float RSRP
Reference signal received power is the linear average of the power
contributions of the resource elements that carry cell-specific
reference signals within the considered measurement frequency.
3GPP TS 36.214 subclause 5.1.1.
Range: −160 – 0
Unit: dBm
RSRQ Float RSRQ
Reference signal received quality is the ratio N * RSRP / E-UTRA
carrier RSSI, where N is the number of resource blocks of the E-
UTRA carrier RSSI measurement bandwidth. The measurements in
the numerator and denominator are made over the same set of
resource blocks. 3GPP TS 36.214 subclause 5.1.3.
Range: −35 – 0
Unit: dB
CINR Float CINR
Ratio between the reference signal received power (RSRP) and the
interference and noise from the same reference signal set.
Range: −40 – 50
Unit: dB
Time offset Integer Time offset
The time difference between actual received signal and expected
point in time derived from GPS reference time. The unit of the
parameter is 32.552ns that is the same as the Ts parameter defined
by 3GPP TS 136.211 subclause 4.
Range: 0 – 307199
Delay spread Integer Delay spread
The unit of the parameter is 32.552ns that is the same as the Ts
parameter defined by 3GPP TS 136.211 subclause 4.
Range: 0 – 1023
Unit: Ts
Indication Integer Scanning result indication
The parameter contains the status of the measurement result. This
is a bit field so the value of the parameter is the sum of all
simultaneouns measurement statuses, e.g. if the antenna power
imbalance and frequency offset too large conditions happen
simultaneously the recorded value would be three.
1 = Antenna power imbalance
Indicates if difference in received reference signal power
between antennas is greater than or equal to 15 dB when at
least one of received signal power is greater than or equal to -90
dBm.
2 = Frequency offset too large
Indicates if the difference between the received signal and the
expected center channel frequency is greater than or equal to 1
kHz.
MIMO mode Integer MIMO mode information
The parameter indicates the current MIMO mode of each LTE PCI.
The value of the parameter specifies the received TX-RX port
configuration in the following format: [number of TX ports used] x
[number of RX ports used].
11 = 1x1
1 TX port and 1 RX port used.
12 = 1x2
1 TX port and 2 RX ports used.
14 = 1x4
1 TX port and 4 RX ports used.
21 = 2x1
2 TX ports and 1 RX port used.
22 = 2x2
2 TX ports and 2 RX ports used.
24 = 2x4
2 TX ports and 4 RX ports used.
41 = 4x1
4 TX ports and 1 RX port used.
42 = 4x2
4 TX ports and 2 RX ports used.
44 = 4x4
4 TX ports and 4 RX ports used.
RSSI Float E-UTRAN carrier RSSI
Whole band (wideband) power of all subcarriers including thermal
noise, co-carrier and adjacent carrier interference, and noise
generated in the receiver. For the reference signal scanning this is
the same as E-UTRAN carrier RSSI. See 3GPP TS 136.214
subclause 5.1.5.
Unit: dBm
CFO Integer Carrier frequency offset
The difference between the received signal and the expected center
channel frequency.
Unit: Hz
#Ports Integer Number of measurement results per antenna port
For example if there are two physical cell identities and four antenna
ports per cell identity the value of the parameter would be eight. The
first four blocks would contain measurement results per antenna port
for the first cell and next four blocks would contain results for the
second cell.
#Params/port Integer Number of parameters per measurement result
PCI Integer Physical cell identity
Range: 0 – 503
Antenna port Integer Antenna port
0 = Port 0
This is the same as TX0.
1 = Port 1
This is the same as TX1.
2 = Port 2
This is the same as TX2.
3 = Port 3
This is the same as TX3.
100 = TX0-RX0 channel
101 = TX0-RX1 channel
102 = TX0-RX2 channel
103 = TX0-RX3 channel
110 = TX1-RX0 channel
111 = TX1-RX1 channel
112 = TX1-RX2 channel
113 = TX1-RX3 channel
120 = TX2-RX0 channel
121 = TX2-RX1 channel
122 = TX2-RX2 channel
123 = TX2-RX3 channel
130 = TX3-RX0 channel
131 = TX3-RX1 channel
132 = TX3-RX2 channel
133 = TX3-RX3 channel
RSRP/P Float RSRP/antenna port
Reference signal received power is the linear average of the power
contributions of the resource elements that carry cell-specific
reference signals within the considered measurement frequency.
This is the same as NRSRP with NB-IoT. 3GPP TS 36.214
subclause 5.1.1.
Range: −160 – 0
Unit: dBm
RSRQ/P Float RSRQ/antenna port
Reference signal received quality is the ratio N * RSRP / E-UTRA
carrier RSSI, where N is the number of resource blocks of the E-
UTRA carrier RSSI measurement bandwidth. The measurements in
the numerator and denominator are made over the same set of
resource blocks. This is the same as NRSRQ with NB-IoT. 3GPP TS
36.214 subclause 5.1.3.
Range: −35 – 0
Unit: dB
CINR/P Float CINR/antenna port
Ratio between the reference signal received power (RSRP) and the
interference and noise from the same reference signal set.
Range: −40 – 50
Unit: dB
RSSI/P Float E-UTRAN carrier RSSI/antenna port
Whole band (wideband) power of all subcarriers including thermal
noise, co-carrier and adjacent carrier interference, and noise
generated in the receiver. See 3GPP TS 136.214 subclause 5.1.5.
Unit: dBm

Parameters for LTE SCH |Top|

Name Type Description
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
P-SCH PCI Integer P-SCH physical cell identity
Range: 0 – 503
Cyclic prefix Integer P-SCH cyclic prefix
1 = Normal 15 kHz
2 = Extended 15 kHz
3 = Extended 7.5 kHz
P-SCH RP Float P-SCH RP
Linear average over the power contributions of the resource
elements that carry primary synchronization signal.
Range: −140 – 0
Unit: dBm
P-SCH RQ Float P-SCH RQ
The ratio between P-SCH received power (P-SCH RP) and linear
average of total received power measured over OFDM symbols and
resource blocks, including primary synchronization (P-SCH) signal.
The measurements in the numerator and denominator are made
over the same set of resource blocks.
Range: −30 – 0
Unit: dB
S-SCH RP Float S-SCH RP
Linear average over the power contributions of the resource
elements that carry secondary synchronization signal.
Range: −140 – 0
Unit: dBm
S-SCH RQ Float S-SCH RQ
The ratio between S-SCH received power (S-SCH RP) and linear
average of total received power measured over OFDM symbols and
resource blocks, including secondary synchronization (S-SCH)
signal. The measurements in the numerator and denominator are
made over the same set of resource blocks.
Range: −30 – 0
Unit: dB
S-SCH CINR Float S-SCH CINR
The ratio between synchronization channel received power and
interference and noise from the same synchronization signal set.
Range: −40 – 50
Unit: dB
Time offset Integer P-SCH time offset
The time difference between actual received signal and expected
point in time derived from GPS reference time. The unit of the
parameter is 32.552ns that is the same as the Ts parameter defined
by 3GPP TS 136.211 subclause 4.
Range: 0 – 307199
P-SCH CINR Float P-SCH CINR
The ratio between synchronization channel received power and
interference and noise from the same synchronization signal set.
Range: −40 – 50
Unit: dB

Parameters for LTE PBCH |Top|

Name Type Description
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
PBCH PCI Integer PBCH physical cell identity
Range: 0 – 503
Cyclic prefix Integer PBCH cyclic prefix
1 = Normal 15 kHz
2 = Extended 15 kHz
3 = Extended 7.5 kHz
PBCH RP Float PBCH RP
Currently support for this parameter has not been implemented.
Range: −140 – 0
Unit: dBm
PBCH RQ Float PBCH RQ
Currently support for this parameter has not been implemented.
Range: −30 – 0
Unit: dB
PBCH CINR Float PBCH CINR
Currently support for this parameter has not been implemented.
Range: −40 – 50
Unit: dB
Time offset Integer PBCH time offset
The time difference between actual received signal and expected
point in time derived from GPS reference time. The unit of the
parameter is 32.552ns that is the same as the Ts parameter defined
by 3GPP TS 136.211 subclause 4.
Range: 0 – 307199

Parameters for LTE PMCH |Top|

Name Type Description
#MBSFN areas Integer Number of MBSFN areas
#Params/MBSFN Integer Number of parameters per MBSFN area
area
Area ID Integer MBSFN area ID
Multi broadcast single frequency network area identity. See more
3GPP TS 136.211 subclause 6.10.2.1.
Range: 0 – 255
PMCH RP Float PMCH RP
Range: −140 – 0
Unit: dBm
PMCH RQ Float PMCH RQ
Range: −30 – 0
Unit: dB
PMCH CINR Float PMCH CINR
Range: −40 – 50
Unit: dB
PMCH RSSI Float PMCH RSSI
Range: −120 – 30
Unit: dBm
#Cells Integer Number of cells
These are the cells that have been detected to broadcast listed
MBSFN area ID based on system information blocks. The list is not
necessarily complete.
#Params/cell Integer Number of parameters per cell
Area ID Integer MBSFN area ID
Multi broadcast single frequency network area identity. See more
3GPP TS 136.211 subclause 6.10.2.1.
Range: 0 – 255
PCI Integer Physical cell identity
Range: 0 – 503
Cell ID Integer Cell identification
Cell identity of the current cell. For GSM this is 16 bit value, for
UMTS this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this
is 28 bit value (eNB ID + 8 bit cell ID).
Range: 0 – 268435455

Parameters for NB-IoT NRS |Top|

Parameters for NB-IoT NPSS and NSSS |Top|

Parameters for WLAN |Top|

Name Type Description
#Header params Integer Number of header parameters
Band Integer WLAN band
200001 = WLAN 2.4 GHz
200002 = WLAN 3.6 GHz
200003 = WLAN 4.9 GHz
200004 = WLAN 5.0 GHz
209999 = WLAN
Channel Integer WLAN channel number
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Protocol Integer WLAN protocol
1 = 802.11a
2 = 802.11b
3 = 802.11g
4 = 802.11n
5 = 802.11ac
6 = 802.11ad
7 = 802.11ah
8 = 802.11aj
9 = 802.11ax
10 = 802.11ay
BSSID String WLAN BSSID
This is same as MAC address. Logged format is hexadecimal bytes
separated by colon, for example 01:23:45:67:89:ab.
Name String WLAN cell name
SSID String WLAN service set identifier
RSSI Float WLAN RSSI
Range: −110 – 20
Unit: dBm
Noise level Float WLAN noise level
Range: −150 – −70
Unit: dBm
CINR Float WLAN CINR
Unit: dB
Security Integer WLAN security mode
0 = Open
1 = 802.1x
2 = WEP
3 = WPA-EAP
4 = WPA-PSK
5 = WPA2-EAP
6 = WPA2-PSK
Beacon interval Integer WLAN beacon interval
Minimum value: 0
Unit: ms
Utilization Float WLAN channel utilization
Defines the percentage of time channel has been detected to be
busy.
Range: 0 – 100
Unit: %

Parameters for WiMAX |Top|

Name Type Description
#Header params Integer Number of header parameters
#Frequencies Integer Number of frequencies
#Params/frequency Integer #Params/frequency
Frequency Float Frequency
Unit: MHz
RSSI Float Carrier RSSI (OFDM scanning mode)
Wide-band power of all subcarriers including thermal noise, co-
carrier and adjacent carrier interference, and noise generated in the
receiver.
Unit: dBm
#Preambles Integer Number of preambles
#Params/preamble Integer Number of parameters per preamble
Frequency Float WiMAX frequency
Unit: MHz
Preamble index Integer WiMAX preamble index
Range: 0 – 113
Preamble RSSI Float WiMAX preamble RSSI
Range: −120 – 0
Unit: dBm
CINR Float WiMAX CINR
Channel to interference-noise ratio.
Range: −32 – 40
Unit: dB
Delay Float WiMAX preamble delay
Range: 0 – 1055

Parameters for DVB-H |Top|

Physical resource block scanning results (PRBSCAN)

Event ID PRBSCAN
Cellular systems LTE FDD
Record state Scanning state
Description This measurement event is logged for each cell separately and contains scanning results
per physical resource block. Recorded when measurement sample is received from the
device. Currently logged about once per second with Rohde&Schwarz scanners.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for LTE Rohde&Schwarz |Parameters for LTE PCTel |Parameters for LTE Nemo FSR1 |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
Scanner type Integer Scanner type
1 = Rohde&Schwarz
2 = PCTel
3 = Nemo FSR1
#System and Integer Number of system and device specific parameters
device specific
parameters

Parameters for LTE Rohde&Schwarz |Top|

Parameters for LTE PCTel |Top|

Name Type Description
#Header Integer Number of header parameters
params
Band Integer Band
70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
Ch Integer Channel number
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
PCI Integer Physical cell identity
Range: 0 – 503
2x2 K Float 2x2 MIMO condition number
Minimum value: 0
Unit: dB
OLSM 1L CQI Integer Single layer open-loop CQI
Range: 0 – 15
OLSM 1L rate Integer Single layer open-loop throughput
Minimum value: 0
Unit: bit/s
CLSM 1L CQI Integer Single layer closed-loop CQI
Range: 0 – 15
CLSM 1L rate Integer Single layer closed-loop throughput
Minimum value: 0
Unit: bit/s
OLSM 2L CQI 0 Integer Dual layer open-loop CQI 0
Range: 0 – 15
OLSM 2L rate 0 Integer Dual layer open-loop throughput 0
Minimum value: 0
Unit: bit/s
OLSM 2L CQI 1 Integer Dual layer open-loop CQI 1
Range: 0 – 15
OLSM 2L rate 1 Integer Dual layer open-loop throughput 1
Minimum value: 0
Unit: bit/s
CLSM 2L CQI 0 Integer Dual layer closed-loop SM CQI 0
Range: 0 – 15
CLSM 2L rate 0 Integer Dual layer closed-loop throughput 0
Minimum value: 0
Unit: bit/s
CLSM 2L CQI 1 Integer Dual layer closed-loop SM CQI 1
Range: 0 – 15
CLSM 2L rate 1 Integer Dual layer closed-loop throughput 1
Minimum value: 0
Unit: bit/s
CLSM 2L rate Integer Dual layer closed-loop throughput
Minimum value: 0
Unit: bit/s
CLSM 3L CQI 0 Integer Three layer closed-loop SM CQI 0
Range: 0 – 15
CLSM 3L CQI 1 Integer Three layer closed-loop SM CQI 1
Range: 0 – 15
CLSM 3L CQI 2 Integer Three layer closed-loop SM CQI 2
Range: 0 – 15
CLSM 3L rate Integer Three layer closed-loop throughput
Minimum value: 0
Unit: bit/s
CLSM 4L CQI 0 Integer Four layer closed-loop SM CQI 0
Range: 0 – 15
CLSM 4L CQI 1 Integer Four layer closed-loop SM CQI 1
Range: 0 – 15
CLSM 4L CQI 2 Integer Four layer closed-loop SM CQI 2
Range: 0 – 15
CLSM 4L CQI 3 Integer Four layer closed-loop SM CQI 3
Range: 0 – 15
CLSM 4L rate Integer Four layer closed-loop throughput
Minimum value: 0
Unit: bit/s

Parameters for LTE Nemo FSR1 |Top|

Name Type Description
#Header Integer Number of header parameters
params
Band Integer Band
70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
Ch Integer Channel number
PCI Integer Physical cell identity
Range: 0 – 503
#PRB indexes Integer Number of PRB indexes
This is the same as the system bandwidth.
Range: 0 – 100
#Params/PRB Integer Number of parameters per PRB index
index
PRB index Integer PRB index
Range: 0 – 99
2x2 rank Integer 2x2 MIMO rank estimation/PRB
Minimum value: 0
2x2 K Float 2x2 MIMO condition number/PRB
Minimum value: 0
Unit: dB
2x4 rank Integer 2x4 MIMO rank estimation/PRB
Minimum value: 0
2x4 K Float 2x4 MIMO condition number/PRB
Minimum value: 0
Unit: dB
RSRP Float RSRP/PRB
Reference signal received power is the linear average of the power
contributions of the resource elements that carry cell-specific
reference signals within the considered measurement frequency.
3GPP TS 36.214 subclause 5.1.1.
Range: −160 – 0
Unit: dBm
CINR Float CINR/PRB
Ratio between the reference signal received power (RSRP) and the
interference and noise from the same reference signal set.
Range: −40 – 50
Unit: dB

Timing profile scanning result (TPROFSCAN)

Event ID TPROFSCAN
Cellular systems UMTS FDD
Record state Scanning state
Description Recorded when parameter sample is received from the device. Separate measurement
event is logged for each channel and channel type.
Tools Nemo Outdoor
|Parameters |Parameters for UMTS FDD |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD

Parameters for UMTS FDD |Top|

Name Type Description
#Header params Integer Number of header parameters
Ch Integer Channel number
RSSI Float RSSI
Wide-band carrier power including thermal noise, co-carrier and
adjacent carrier interference, and noise generated in the receiver.
Range: −140 – 0
Unit: dBm
Ch type Integer UMTS channel type
1 = CPICH
2 = P SCH
3 = S SCH
4 = CPICH (TX diversity)
5 = PPCH
Band Integer Band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
#Params/sample Integer Number of parameters per sample
#Samples Integer Number of samples
Chip Integer Chip number
Ec/N0 Float Chip Ec/N0
The received energy per chip divided by the power density of the
band.
Range: −30 – 0
Unit: dB

Delay profile scanning result (DPROFSCAN)

Event ID DPROFSCAN
Cellular systems UMTS FDD,cdmaOne,CDMA 1x
Record state Scanning state
Description Recorded when parameter sample is received from the device. Separate measurement
event is logged for each system and channel.
Tools Nemo Outdoor
|Parameters |Parameters for UMTS FDD |Parameters for cdmaOne, CDMA 1x, and EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO

Parameters for UMTS FDD |Top|

Name Type Description
#Header params Integer Number of header parameters
Ch Integer Channel number
SC Integer Scrambling code
Range: 0 – 511
Ch type Integer UMTS channel type
1 = CPICH
2 = P SCH
3 = S SCH
4 = CPICH (TX diversity)
5 = PPCH
Band Integer Band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
#Params/sample Integer Number of parameters per sample
#Samples Integer Number of samples
Sample offset Float Delay profile sample offset
Delay in 0.5 chip resolution.
Range: −550 – 550
Unit: chip
Sample Float Delay profile sample

Parameters for cdmaOne, CDMA 1x, and EVDO |Top|

Name Type Description
#Header params Integer Number of header parameters
Band Integer Band
100000 = cdmaOne 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
100001 = cdmaOne 1900 band 1
North American PCS 1900 MHz band.
100002 = cdmaOne 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
100003 = cdmaOne 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
100004 = cdmaOne 1800 Korean band 4
Korean PCS 1800 MHz band.
100005 = cdmaOne 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
100006 = cdmaOne 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
100007 = cdmaOne 700 band 7
North American cellular 700 MHz band.
100008 = cdmaOne 1800 band 8
1800 MHz band.
100009 = cdmaOne 900 band 9
900 MHz band.
100010 = cdmaOne 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
100011 = cdmaOne 400 PAMR band 11
European PAMR 400 MHz band.
100012 = cdmaOne 800 PAMR band 12
European PAMR 800 MHz band.
100013 = cdmaOne 2500 band 13
2.5 GHz IMT-2000 extension.
100014 = cdmaOne 1900 band 14
US PCS 1.9 GHz.
100015 = cdmaOne 2100 AWS band 15
100016 = cdmaOne 2500 band 16
US 2.5 GHz.
100018 = cdmaOne 700 public safety band 18
100019 = cdmaOne 700 lower band 19
100020 = cdmaOne 1500 L-band band 20
100021 = cdmaOne 2000 S-band band 21
109999 = cdmaOne
110000 = CDMA 1x 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
110001 = CDMA 1x 1900 band 1
North American PCS 1900 MHz band.
110002 = CDMA 1x 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
110003 = CDMA 1x 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
110004 = CDMA 1x 1800 Korean band 4
Korean PCS 1800 MHz band.
110005 = CDMA 1x 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
110006 = CDMA 1x 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
110007 = CDMA 1x 700 band 7
North American cellular 700 MHz band.
110008 = CDMA 1x 1800 band 8
1800 MHz band.
110009 = CDMA 1x 900 band 9
900 MHz band.
110010 = CDMA 1x 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
110011 = CDMA 1x 400 PAMR band 11
European PAMR 400 MHz band.
110012 = CDMA 1x 800 PAMR band 12
European PAMR 800 MHz band.
110013 = CDMA 1x 2500 band 13
2.5 GHz IMT-2000 extension.
110014 = CDMA 1x 1900 band 14
US PCS 1.9 GHz.
110015 = CDMA 1x 2100 AWS band 15
110016 = CDMA 1x 2500 band 16
US 2.5 GHz.
110018 = CDMA 1x 700 public safety band 18
110019 = CDMA 1x 700 lower band 19
110020 = CDMA 1x 1500 L-band band 20
110021 = CDMA 1x 2000 S-band band 21
119999 = CDMA 1x
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
Ch Integer Channel number
#Params/sample Integer Number of parameters per sample
#Samples Integer Number of samples
Sample offset Integer Delay profile sample absolute offset
Delay profile sample offset.
Range: 0 – 32768
Unit: chip
Sample energy Float Delay profile sample energy
Range: −35 – 3
Unit: dB

Rake finger allocation (FINGER)

Event ID FINGER
Cellular systems UMTS FDD,cdmaOne,CDMA 1x,EVDO
Record state Always
Description Recorded when parameter sample is received from the device. Currently this information
is only logged for serving cells.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for cdmaOne and CDMA 1x |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO

Parameters for UMTS FDD |Top|

Name Type Description
#Header params Integer Number of header parameters
#Fingers Integer Number of fingers
#Params/finger Integer Number of parameters per finger
Ch Integer Channel number
SC Integer Scrambling code
Range: 0 – 511
Secondary SC Integer Secondary scrambling code
Range: 0 – 15
Ec/N0 Float Finger Ec/N0
The received energy per chip divided by the power density of the band.
Range: −30 – 0
Unit: dB
Finger abs Float Absolute finger offset
offset Note that the accuracy can be greater than one chip.
Unit: chip
Finger rel. Float Finger offset relative to strongest peak
offset Finger offset to the strongest peak. Note that the accuracy can be
greater than one chip.
Unit: chip
Finger RSCP Float Finger RSCP
The received signal code power of single code.
Unit: dBm

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
#Header params Integer Number of header parameters
Agg. Ec/I0 Float Aggregate Ec/I0
Summary of the Ec/I0 of the fingers. At least one finger has to be
locked.
Range: −50 – 0
Unit: dB
Ant. config Integer Antenna configuration
0 = RX0
1 = RX1
2 = Diversity enabled
3 = Simultaneous mode RX0
4 = Simultaneous mode RX1
#Fingers Integer Number of fingers
#Params/finger Integer Number of parameters per finger
PN Integer Pilot number
Range: 0 – 511
Finger abs Float Absolute finger offset
offset Note that the accuracy can be greater than one chip.
Unit: chip
Finger locked Integer Finger locked
0 = No
1 = Yes
Ec/I0 Float Ec/I0
If antenna configuration is 2, then this represents Ec/I0 for the paired
fingers.
Range: −30 – 30
Unit: dB
Ref. finger Integer Reference finger
0 = No
1 = Yes
Assigned Integer Assigned finger
finger 0 = No
1 = Yes
TD mode Integer Transmit diversity mode
0 = None
1 = Reserver I
2 = OTD
3 = STS
TD power Float Transmit diversity power level
Range: −9 – 0
Subchannel Integer Subchannel
1 = PCH
2 = Primary BCCH
4 = Secondary BCCH 1
8 = Secondary BCCH 2
16 = Secondary BCCH 3
32 = Secondary BCCH 4
64 = Secondary BCCH 5
128 = Secondary BCCH 6
256 = Secondary BCCH 7
512 = FCCCH
1024 = QPCH
2048 = FCH
4096 = DCCH
8192 = SCCH
16384 = SCH
32768 = PDCCH
65536 = GCH 0
131072 = GCH 1
262144 = RCCH
524288 = ACKCH
1048576 = CPCCH
2097152 = CACH
Locked Integer Locked antennas
antennas 0 = RX0
1 = RX1
RX0 Ec/I0 Float Ec/I0 antenna 0
Ec/I0 for finger tracking RX0.
Range: −30 – 30
Unit: dB
RX1 Ec/I0 Float Ec/I0 antenna 1
Ec/I0 for finger tracking RX1.
Range: −30 – 30
Unit: dB

Parameters for EVDO |Top|

Name Type Description
#Header params Integer Number of header parameters
Searcher state Integer Searcher state
0 = Start (inactive)
1 = Acquisition
2 = Synchronization
3 = Idle
4 = Idle suspended
5 = Idle broadcast
6 = Idle off-frequency searching
7 = Broadcast access
8 = Sleep
9 = Reacquisition
10 = Traffic
11 = Traffic suspended
12 = Traffic off-frequency searching
MSTR Integer Mobile station time reference
Relative to the RTC timebase.
Unit: chip
MSTR error Integer Mobile station time reference error
Relative to the earliest arriving in-lock and enabled active set pilot.
Unit: chip
MSTR PN Integer Mobile station PN offset
Pilot PN of the finger which the MSTR is tracking. Typically the earliest
arriving finger.
Range: 0 – 511
Ant. config Integer Antenna configuration
0 = RX0
1 = RX1
2 = Diversity enabled
3 = Simultaneous mode RX0
4 = Simultaneous mode RX1
#Fingers Integer Number of fingers
#Params/finger Integer Number of parameters per finger
PN Integer Pilot number
Range: 0 – 511
Finger index Integer Finger index
Index of the demodulator finger.
Range: 0 – 11
RPC cell index Integer RPC cell index
Value/index assigned to a cell by AT.
Range: 0 – 6
ASP index Integer ASP index
Value/index assigned to a sector by AT.
Range: 0 – 6
Ec/I0 Float Ec/I0
If antenna configuration is 2, then this represents Ec/I0 for the paired
fingers.
Range: −30 – 30
Unit: dB
RX0 Ec/I0 Float Ec/I0 antenna 0
Ec/I0 for finger tracking RX0.
Range: −30 – 30
Unit: dB
RX1 Ec/I0 Float Ec/I0 antenna 1
Ec/I0 for finger tracking RX1.
Range: −30 – 30
Unit: dB
Finger locked Integer Finger locked
0 = No
1 = Yes
Finger abs Float Absolute finger offset
offset Note that the accuracy can be greater than one chip.
Unit: chip
Packet carrier Integer Packet carrier number

Uplink interference scanning results (UISCAN)

Event ID UISCAN
Cellular systems UMTS FDD
Record state Scanning state
Description Recorded when parameter sample is received from the device. Separate measurement
event is logged for each channel.
Tools Nemo Outdoor
|Parameters |Parameters for UMTS FDD |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD

Parameters for UMTS FDD |Top|

Name Type Description
#Header Integer Number of header parameters
params
Band Integer Band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
#Params/cell Integer Number of parameters per cell
#Cells Integer Number of scanned cells
ARFCN Integer Channel number
SC Integer Scrambling code
Range: 0 – 511
UL interf. Float Uplink interference
Uplink Interference is measured by the NodeB and broadcasted by the
NodeB in SIB7. This is used by the UE to in setting the initial TX power
for the first PRACH preamble. The Uplink Interference value in SIB7
uses 1 dB step. More information can be found in 3GPP TS 25.133 and
25.215 (information about SIB7 in 3GPP TS 25.331), where the Uplink
Interference is referred as "Received total wide band power".
Range: −110 – −52
Unit: dBm

DL allocation scanning results (DLALLOCSCAN)

Event ID DLALLOCSCAN
Cellular systems LTE FDD,LTE TDD
Record state Scanning state
Description Recorded when parameter sample is received from the device. Separate measurement
event is logged for each system, band, channel number, and channel type.
Tools Nemo Outdoor
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for LTE |Top|

Name Type Description
#Header params Integer Number of header parameters
Band Integer Band
70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
80033 = LTE TDD 1900-1920 band 33
80034 = LTE TDD 2010-2025 band 34
80035 = LTE TDD 1850-1910 band 35
80036 = LTE TDD 1930-1990 band 36
80037 = LTE TDD 1910-1930 band 37
80038 = LTE TDD 2570-2620 band 38
80039 = LTE TDD 1880-1920 band 39
80040 = LTE TDD 2300-2400 band 40
80041 = LTE TDD 2496-2690 band 41
80042 = LTE TDD 3400-3600 band 42
80043 = LTE TDD 3600-3800 band 43
80044 = LTE TDD 703-803 band 44
80045 = LTE TDD 1447-1467 band 45
80046 = LTE TDD 5154-5925 band 46
80047 = LTE TDD 5855-5925 band 47
80048 = LTE TDD 3550-3700 band 48
80061 = LTE TDD 1447-1467 band 61
This is a non-standard LTE TDD band.
80062 = LTE TDD 1785-1805 band 62
This is a non-standard LTE TDD band.
80087 = LTE TDD 1447-1467 band 87
This is a non-standard LTE TDD band.
80088 = LTE TDD 1785-1805 band 88
This is a non-standard LTE TDD band.
89999 = LTE TDD
Ch Integer Channel number
DL BW Integer DL bandwidth
This is the scanned bandwidth when the scanned bandwidth differs from
the system bandwidth.
1 = 180 kHz
Used with NB-IoT.
6 = 1.4 MHz
15 = 3 MHz
25 = 5 MHz
50 = 10 MHz
75 = 15 MHz
100 = 20 MHz
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
PCI Integer Physical cell identity
Range: 0 – 503
Cell ID Integer Cell identification
Cell identity of the current cell. For GSM this is 16 bit value, for UMTS
this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this is 28 bit
value (eNB ID + 8 bit cell ID).
Range: 0 – 268435455
DL PRB %/C Float PRB utilization DL/cell
Downlink PRB utilization proportional to cell bandwidth.
Range: 0 – 100
Unit: %
Scheduled Integer Scheduled throughput/cell
rate/C Minimum value: 0
Unit: bit/s
Min Integer Scheduled throughput min/cell
scheduled Minimum value: 0
rate/C Unit: bit/s
Max Integer Scheduled throughput max/cell
scheduled Minimum value: 0
rate/C Unit: bit/s
Users/cell Integer Users/cell
Scheduled Integer Scheduled throughput/user/cell
rate/U/C Minimum value: 0
Unit: bit/s
Min Integer Scheduled throughput min/user/cell
scheduled Minimum value: 0
rate/U/C Unit: bit/s
Max Integer Scheduled throughput max/user/cell
scheduled Minimum value: 0
rate/U/C Unit: bit/s
#Users Integer Number of users
#Params/user Integer Number of parameters per user
PCI Integer Physical cell identity
Range: 0 – 503
C-RNTI Integer C-RNTI
Cell Radio Network Temporary Identifier. A dynamic identity assigned by
eNodeB and is valid as long as the UE is connected to that eNB.
DL PRB %/U Float PRB utilization DL/user
Downlink PRB utilization proportional to cell bandwidth.
Range: 0 – 100
Unit: %
Scheduled Integer Scheduled throughput/user
rate/U Minimum value: 0
Unit: bit/s
MCS/U Integer MCS index/user
Defines the average MCS index. See 3GPP TS 36.213 subclause 7.1.7.
Range: 0 – 28

Cell scanning results (CELLSCAN)

Event ID CELLSCAN
Cellular systems GSM,UMTS FDD,LTE FDD,LTE TDD
Record state Scanning state
Description Recorded when parameter sample is received from the device. With GSM the system
information messages, and with UMTS and LTE the system information blocks, are
decoded to produce the information required for this measurement event.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM |Parameters for UMTS FDD |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for GSM |Top|

Name Type Description
#Header Integer Number of header parameters
params
Band Integer Band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
ARFCN Integer Scanned channel number
BSIC Integer Scanned base station identification code
Range: 0 – 63
MCC Integer Scanned MCC
See ITU-T recommendation E.212.
Range: 0 – 999
MNC Integer Scanned MNC
Range: 0 – 999
LAC Integer Scanned LAC
Range: 0 – 65535
Cell ID Integer Scanned cell identification
Cell identity of the current cell. For GSM this is 16 bit value, for UMTS
this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this is 28 bit
value (eNB ID + 8 bit cell ID).
Range: 0 – 65535

Parameters for UMTS FDD |Top|

Name Type Description
#Header Integer Number of header parameters
params
Band Integer Band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
UARFCN Integer Scanned channel number
SC Integer Scanned scrambling code
Range: 0 – 511
MCC Integer Scanned MCC
See ITU-T recommendation E.212.
Range: 0 – 999
MNC Integer Scanned MNC
Range: 0 – 999
LAC Integer Scanned LAC
Range: 0 – 65535
Cell ID Integer Scanned cell identification
Cell identity of the current cell. For GSM this is 16 bit value, for UMTS
this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this is 28 bit
value (eNB ID + 8 bit cell ID).
Range: 0 – 268435455

Parameters for LTE |Top|

Name Type Description
#Header Integer Number of header parameters
params
Band Integer Band
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
EARFCN Integer Scanned channel number
PCI Integer Scanned physical cell identity
Range: 0 – 503
MCC Integer Scanned MCC
See ITU-T recommendation E.212.
Range: 0 – 999
MNC Integer Scanned MNC
Range: 0 – 999
TAC Integer Scanned TAC
Range: 0 – 65535
Cell ID Integer Scanned cell identification
Cell identity of the current cell. For GSM this is 16 bit value, for UMTS
this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this is 28 bit
value (eNB ID + 8 bit cell ID).
Range: 0 – 268435455

Handover/handoff attempt (HOA)

Event ID HOA
Cellular systems All
Record state Always
Description Recorded when handover attempt is initiated based on signaling. For GSM, RR layer3
signaling is used. For UMTS, RRC signaling is used. Note that this measurement event is
not recorded with GSM when the first TCH allocation is done. Instead, after a successful
TCH assignment, a CAC measurement event is recorded. The measurement event
begins the handover attempt state.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Current system parameters |Parameters for GSM |Parameters for TETRA |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA
|Parameters for LTE |Parameters for cdmaOne, CDMA 1x, and EVDO |Parameters for GAN WLAN |Parameters for WiMAX |Parameters for DAMPS
|Parameters for iDEN |Attempted system parameters |Parameters for GSM |Parameters for TETRA |Parameters for UMTS FDD |Parameters for UMTS
TD-SCDMA |Parameters for LTE |Parameters for cdmaOne, CDMA 1x, and EVDO |Parameters for GAN WLAN |Parameters for WiMAX |Parameters for
DAMPS |Parameters for iDEN |

Parameters |Top|
Name Type Description
Handover Context Handover context ID
context ID
#Header Integer Number of header parameters
params
HOA type Integer Handover/handoff attempt type
101 = GSM internal handover
102 = GSM handover between cells
103 = GSM handover between systems
104 = GSM handover between bands
105 = GSM internal handover between bands
201 = DAMPS handoff between sectors or handoff to small diameter cell
(SBI = 00)
202 = DAMPS handoff to small diameter cell or handoff to large diameter
cell (SBI = 01 or SBI = 10)
203 = DAMPS handoff between systems
301 = CDMA hard handoff
303 = CDMA handoff between systems
401 = UMTS FDD hard handover
403 = UMTS FDD handover between systems
501 = TD-SCDMA hard inter-frequency handover
502 = TD-SCDMA hard intra-frequency handover
503 = TD-SCDMA handover between systems
504 = TD-SCDMA baton inter-frequency handover
505 = TD-SCDMA baton intra-frequency handover
600 = TETRA announced cell reselection type 1
601 = TETRA announced cell reselection type 2
602 = TETRA announced cell reselection type 3
703 = GAN WLAN handover between systems
801 = WiMAX handover between cells
901 = LTE handover between cells
902 = LTE handover between frequencies
903 = LTE handover between bands
904 = LTE handover between systems
1001 = iDEN intra-cell
1002 = iDEN inter-cell

Current system parameters |Top|

Name Type Description
Current system Integer Current cellular system
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO
21 = GAN WLAN
25 = WiMAX
53 = DAMPS
55 = iDEN
Number of Integer Number of current system parameters
current system
parameters

Parameters for GSM |Top|

Name Type Description
Ch number Integer Channel number
If the current cell does not have hopping, the value is the currently used
channel number. If hopping is in use, the value is the BCCH channel
number of the serving cell.
TSL Integer Timeslot
Range: 0 – 7
Band Integer Band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM

Parameters for TETRA |Top|

Name Type Description
Ch number Integer Channel number
TSL Integer Timeslot
Range: 0 – 7
Band Integer Band
20001 = TETRA band 1
20002 = TETRA band 2
20003 = TETRA band 3
20004 = TETRA band 4
20005 = TETRA band 5
20006 = TETRA band 6
20007 = TETRA band 7
20008 = TETRA band 8
20009 = TETRA band 9
20010 = TETRA band 10
20011 = TETRA band 11
20012 = TETRA band 12
20013 = TETRA band 13
20014 = TETRA band 14
20015 = TETRA band 15
29999 = TETRA

Parameters for UMTS FDD |Top|

Name Type Description
Ch number Integer Channel number
SC Integer Scrambling code
Range: 0 – 511
Band Integer Band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
Ch number Integer Channel number
Cell params Integer Cell parameters ID
ID Range: 0 – 127
Band Integer Band
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA

Parameters for LTE |Top|

Name Type Description
Ch number Integer Channel number
PCI Integer Physical cell ID
Range: 0 – 503
Band Integer Band
70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
80033 = LTE TDD 1900-1920 band 33
80034 = LTE TDD 2010-2025 band 34
80035 = LTE TDD 1850-1910 band 35
80036 = LTE TDD 1930-1990 band 36
80037 = LTE TDD 1910-1930 band 37
80038 = LTE TDD 2570-2620 band 38
80039 = LTE TDD 1880-1920 band 39
80040 = LTE TDD 2300-2400 band 40
80041 = LTE TDD 2496-2690 band 41
80042 = LTE TDD 3400-3600 band 42
80043 = LTE TDD 3600-3800 band 43
80044 = LTE TDD 703-803 band 44
80045 = LTE TDD 1447-1467 band 45
80046 = LTE TDD 5154-5925 band 46
80047 = LTE TDD 5855-5925 band 47
80048 = LTE TDD 3550-3700 band 48
80061 = LTE TDD 1447-1467 band 61
This is a non-standard LTE TDD band.
80062 = LTE TDD 1785-1805 band 62
This is a non-standard LTE TDD band.
80087 = LTE TDD 1447-1467 band 87
This is a non-standard LTE TDD band.
80088 = LTE TDD 1785-1805 band 88
This is a non-standard LTE TDD band.
89999 = LTE TDD

Parameters for cdmaOne, CDMA 1x, and EVDO |Top|

Name Type Description
Ch number Integer Channel number
Band Integer Band
100000 = cdmaOne 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
100001 = cdmaOne 1900 band 1
North American PCS 1900 MHz band.
100002 = cdmaOne 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
100003 = cdmaOne 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
100004 = cdmaOne 1800 Korean band 4
Korean PCS 1800 MHz band.
100005 = cdmaOne 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
100006 = cdmaOne 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
100007 = cdmaOne 700 band 7
North American cellular 700 MHz band.
100008 = cdmaOne 1800 band 8
1800 MHz band.
100009 = cdmaOne 900 band 9
900 MHz band.
100010 = cdmaOne 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
100011 = cdmaOne 400 PAMR band 11
European PAMR 400 MHz band.
100012 = cdmaOne 800 PAMR band 12
European PAMR 800 MHz band.
100013 = cdmaOne 2500 band 13
2.5 GHz IMT-2000 extension.
100014 = cdmaOne 1900 band 14
US PCS 1.9 GHz.
100015 = cdmaOne 2100 AWS band 15
100016 = cdmaOne 2500 band 16
US 2.5 GHz.
100018 = cdmaOne 700 public safety band 18
100019 = cdmaOne 700 lower band 19
100020 = cdmaOne 1500 L-band band 20
100021 = cdmaOne 2000 S-band band 21
109999 = cdmaOne
110000 = CDMA 1x 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
110001 = CDMA 1x 1900 band 1
North American PCS 1900 MHz band.
110002 = CDMA 1x 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
110003 = CDMA 1x 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
110004 = CDMA 1x 1800 Korean band 4
Korean PCS 1800 MHz band.
110005 = CDMA 1x 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
110006 = CDMA 1x 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
110007 = CDMA 1x 700 band 7
North American cellular 700 MHz band.
110008 = CDMA 1x 1800 band 8
1800 MHz band.
110009 = CDMA 1x 900 band 9
900 MHz band.
110010 = CDMA 1x 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
110011 = CDMA 1x 400 PAMR band 11
European PAMR 400 MHz band.
110012 = CDMA 1x 800 PAMR band 12
European PAMR 800 MHz band.
110013 = CDMA 1x 2500 band 13
2.5 GHz IMT-2000 extension.
110014 = CDMA 1x 1900 band 14
US PCS 1.9 GHz.
110015 = CDMA 1x 2100 AWS band 15
110016 = CDMA 1x 2500 band 16
US 2.5 GHz.
110018 = CDMA 1x 700 public safety band 18
110019 = CDMA 1x 700 lower band 19
110020 = CDMA 1x 1500 L-band band 20
110021 = CDMA 1x 2000 S-band band 21
119999 = CDMA 1x
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO

Parameters for GAN WLAN |Top|

Name Type Description
Reserved Integer Reserved

Parameters for WiMAX |Top|

Name Type Description
BS ID String WiMAX base station ID
Six colon separated hex values.
Preamble Integer WiMAX preamble index
index Range: 0 – 113
Frequency Float WiMAX frequency
Unit: MHz

Parameters for DAMPS |Top|

Name Type Description
Ch number Integer Channel number
TSL Integer Timeslot
Range: 0 – 7

Parameters for iDEN |Top|

Name Type Description
Ch number Integer Channel number
CC Integer Color code
Range: 0 – 15
Band Integer Band
550001 = iDEN proprietary
550002 = iDEN 800 standard
550003 = iDEN 800 extended
550004 = iDEN 900
550005 = iDEN 1500
559999 = iDEN

Attempted system parameters |Top|

Name Type Description
Attempt. system Integer Attempted cellular system
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO
21 = GAN WLAN
25 = WiMAX
53 = DAMPS
55 = iDEN
Number of Integer Number of attempted system parameters
attempted
system
parameters

Parameters for GSM |Top|

Name Type Description
Att. ch Integer Attempted channel number
If hopping flag is disable (see GSM 04.08 / 10.5.2.5) the value is the
same as ARFCN. If hopping is enabled and assignment command was
used, the value is the same as the serving cell BCCH. If hopping is
enabled and handover command was used, the value is BCCH ARFCN
(see GSM 04.08/ 10.5.2.2).
Att. TSL Integer Attempted timeslot
Range: 0 – 7
Att. Band Integer Attempted band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM

Parameters for TETRA |Top|

Name Type Description
Att. ch Integer Attempted channel number
Att. TSL Integer Attempted timeslot
Range: 0 – 7
Att. Band Integer Attempted band
20001 = TETRA band 1
20002 = TETRA band 2
20003 = TETRA band 3
20004 = TETRA band 4
20005 = TETRA band 5
20006 = TETRA band 6
20007 = TETRA band 7
20008 = TETRA band 8
20009 = TETRA band 9
20010 = TETRA band 10
20011 = TETRA band 11
20012 = TETRA band 12
20013 = TETRA band 13
20014 = TETRA band 14
20015 = TETRA band 15
29999 = TETRA

Parameters for UMTS FDD |Top|

Name Type Description
Att. ch Integer Attempted channel number
Att. SC Integer Attempted scrambling code
Range: 0 – 511
Att. Band Integer Attempted band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
Att. ch Integer Attempted channel number
Att. Cell Integer Attempted cell parameters ID
params ID Range: 0 – 127
Att. Band Integer Attempted band
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA

Parameters for LTE |Top|

Name Type Description
Att. ch Integer Attempted channel number
Att. PCI Integer Attempted physical cell ID
Range: 0 – 503
Att. Band Integer Attempted band
70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
80033 = LTE TDD 1900-1920 band 33
80034 = LTE TDD 2010-2025 band 34
80035 = LTE TDD 1850-1910 band 35
80036 = LTE TDD 1930-1990 band 36
80037 = LTE TDD 1910-1930 band 37
80038 = LTE TDD 2570-2620 band 38
80039 = LTE TDD 1880-1920 band 39
80040 = LTE TDD 2300-2400 band 40
80041 = LTE TDD 2496-2690 band 41
80042 = LTE TDD 3400-3600 band 42
80043 = LTE TDD 3600-3800 band 43
80044 = LTE TDD 703-803 band 44
80045 = LTE TDD 1447-1467 band 45
80046 = LTE TDD 5154-5925 band 46
80047 = LTE TDD 5855-5925 band 47
80048 = LTE TDD 3550-3700 band 48
80061 = LTE TDD 1447-1467 band 61
This is a non-standard LTE TDD band.
80062 = LTE TDD 1785-1805 band 62
This is a non-standard LTE TDD band.
80087 = LTE TDD 1447-1467 band 87
This is a non-standard LTE TDD band.
80088 = LTE TDD 1785-1805 band 88
This is a non-standard LTE TDD band.
89999 = LTE TDD

Parameters for cdmaOne, CDMA 1x, and EVDO |Top|

Name Type Description
Att. ch Integer Attempted channel number
Att. Band Integer Attempted band
100000 = cdmaOne 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
100001 = cdmaOne 1900 band 1
North American PCS 1900 MHz band.
100002 = cdmaOne 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
100003 = cdmaOne 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
100004 = cdmaOne 1800 Korean band 4
Korean PCS 1800 MHz band.
100005 = cdmaOne 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
100006 = cdmaOne 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
100007 = cdmaOne 700 band 7
North American cellular 700 MHz band.
100008 = cdmaOne 1800 band 8
1800 MHz band.
100009 = cdmaOne 900 band 9
900 MHz band.
100010 = cdmaOne 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
100011 = cdmaOne 400 PAMR band 11
European PAMR 400 MHz band.
100012 = cdmaOne 800 PAMR band 12
European PAMR 800 MHz band.
100013 = cdmaOne 2500 band 13
2.5 GHz IMT-2000 extension.
100014 = cdmaOne 1900 band 14
US PCS 1.9 GHz.
100015 = cdmaOne 2100 AWS band 15
100016 = cdmaOne 2500 band 16
US 2.5 GHz.
100018 = cdmaOne 700 public safety band 18
100019 = cdmaOne 700 lower band 19
100020 = cdmaOne 1500 L-band band 20
100021 = cdmaOne 2000 S-band band 21
109999 = cdmaOne
110000 = CDMA 1x 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
110001 = CDMA 1x 1900 band 1
North American PCS 1900 MHz band.
110002 = CDMA 1x 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
110003 = CDMA 1x 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
110004 = CDMA 1x 1800 Korean band 4
Korean PCS 1800 MHz band.
110005 = CDMA 1x 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
110006 = CDMA 1x 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
110007 = CDMA 1x 700 band 7
North American cellular 700 MHz band.
110008 = CDMA 1x 1800 band 8
1800 MHz band.
110009 = CDMA 1x 900 band 9
900 MHz band.
110010 = CDMA 1x 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
110011 = CDMA 1x 400 PAMR band 11
European PAMR 400 MHz band.
110012 = CDMA 1x 800 PAMR band 12
European PAMR 800 MHz band.
110013 = CDMA 1x 2500 band 13
2.5 GHz IMT-2000 extension.
110014 = CDMA 1x 1900 band 14
US PCS 1.9 GHz.
110015 = CDMA 1x 2100 AWS band 15
110016 = CDMA 1x 2500 band 16
US 2.5 GHz.
110018 = CDMA 1x 700 public safety band 18
110019 = CDMA 1x 700 lower band 19
110020 = CDMA 1x 1500 L-band band 20
110021 = CDMA 1x 2000 S-band band 21
119999 = CDMA 1x
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
Parameters for GAN WLAN |Top|
Name Type Description
Reserved Integer Reserved

Parameters for WiMAX |Top|

Name Type Description
Att. BS ID String Attempted WiMAX base station ID
Six colon separated hex values.
Att. preamble Integer Attempted WiMAX preamble index
index Range: 0 – 113
Att. Float Attempted WiMAX frequency
frequency Unit: MHz

Parameters for DAMPS |Top|

Name Type Description
Att. ch Integer Attempted channel number
Att. TSL Integer Attempted timeslot
Range: 0 – 7

Parameters for iDEN |Top|

Name Type Description
Att. ch Integer Attempted channel number
Att. CC Integer Attempted color code
Range: 0 – 15
Att. Band Integer Attempted band
550001 = iDEN proprietary
550002 = iDEN 800 standard
550003 = iDEN 800 extended
550004 = iDEN 900
550005 = iDEN 1500
559999 = iDEN

Handover/handoff success (HOS)

Event ID HOS
Cellular systems All
Record state Handover attempt state
Description Recorded based on signaling when a handover is successful. This measurement event
ends the handover attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Handover context ID Context Handover context ID
Handover/handoff fail (HOF)
Event ID HOF
Cellular systems All
Record state Handover attempt state
Description Recorded based on signaling when a handover fails. This measurement event ends the
handover attempt state.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for GSM and GAN WLAN |Parameters for TETRA, DAMPS, and CDMA |Parameters for UMTS hard handover and TD-SCDMA
baton handover |Parameters for UMTS handover between systems |Parameters for WiMAX handover between cells |Parameters for LTE |Parameters for
iDEN |

Parameters |Top|
Name Type Description
Handover context ID Context Handover context ID

Parameters for GSM and GAN WLAN |Top|

Name Type Description
RR cause Integer RR cause
See 3GPP TS 144.018 subclause 10.5.2.31.
0 = Normal event
1 = Abnormal release, unspecified
2 = Abnormal release, channel unacceptable
3 = Abnormal release, timer expired
4 = Abnormal release, no activity on the radio path
5 = Pre-emptive release
6 = UTRAN configuration unknown
8 = Handover impossible, timing advance out of range
9 = Channel mode unacceptable
10 = Frequency not implemented
11 = Originator or talker leaving group call area
12 = Lower layer failure
65 = Call already cleared
95 = Semantically incorrect message
96 = Invalid mandatory information
97 = Message type non-existent or not implemented
98 = Message type not compatible with protocol state
100 = Conditional IE error
101 = No cell allocation available
111 = Protocol error unspecified

Parameters for TETRA, DAMPS, and CDMA |Top|

Name Type Description
Reserved Integer Reserved

Parameters for UMTS hard handover and TD-SCDMA baton handover |Top|
Name Type Description
RRC cause Integer RRC cause
This is the same as a failure cause defined by 3GPP TS 25.331
subclause 10.3.3.13.
0 = Configuration unsupported
1 = Physical channel failure
2 = Incompatible simultaneous reconfiguration
3 = Protocol error
4 = Compressed mode runtime error
5 = Cell update occurred
6 = Invalid configuration
7 = Configuration incomplete
8 = Unsupported measurement
9 = MBMS session already received correctly
10 = Lower priority MBMS service

Parameters for UMTS handover between systems |Top|

Name Type Description
Inter-RAT cause Integer Inter-RAT handover failure cause
This is the same as a failure cause defined by 3GPP TS 25.331
subclause 10.3.8.6.
0 = Configuration unacceptable
1 = Physical channel failure
2 = Protocol error
3 = Inter-RAT protocol error
4 = Unspecified

Parameters for WiMAX handover between cells |Top|

Name Type Description
HO cause Integer WiMAX HO cause
1 = Dropped
101 = Mobile cancel
102 = Mobile reject
201 = Ranging failure
202 = Ranging abort

Parameters for LTE |Top|

Name Type Description
Reserved Integer Reserved

Parameters for iDEN |Top|

Name Type Description
Reserved Integer Reserved

Handover/handoff information (HOI)

Event ID HOI
Cellular systems UMTS FDD,LTE FDD,LTE TDD,WiMAX
Record state Always
Description Recorded when additional information is available on the handover.
Tools Nemo Outdoor, Nemo Handy
|Parameters |
Parameters |Top|
Name Type Description
Handover Context Handover context ID
context ID
#Header Integer Number of header parameters
params
HO duration Integer Handover duration
With the LTE this defines the handover duration containing handover
processing and interrupt time. Time from the handover initiating RRC
signaling message to the succesfully completed RACH procedure in the
new cell.
Minimum value: 0
Unit: ms
HO to Integer Handover to preamble time
preamble Time from handover attempt (RRC signaling message) to the first
time random access preamble (MSG1) in the target cell. Only support for LTE
to LTE handovers.
Minimum value: 0
Unit: ms
HO U-plane Integer Handover U-plane interruption time
interruption Defines the time from the last packet in the old cell to the first packet in
the new cell.
Minimum value: 0
Unit: ms

Cell reselection (CREL)

Parameters |Top|
Name Type Description
#Header Integer Number of header parameters
params
CRS time Integer Cell reselection duration
Indicates the duration of the cell reselection. Currently this parameter is
only implemented for GSM.
Minimum value: 0
Unit: ms
CRS reason Integer Cell reselection reason
Note that currently this parameter is only supported with iDEN.
1001 = iDEN comparison between serving cell and neighbor cell quality
1002 = iDEN serving cell becomes barred
1003 = iDEN serving cell failed

Old system parameters |Top|

Name Type Description
Old system Integer Old cellular system
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO
21 = GAN WLAN
55 = iDEN
#Params Integer Number of parameters

Parameters for GSM |Top|

Name Type Description
Old LAC Integer Old location area code
Location area code of the old cell.
Range: 0 – 65535
Old Cell ID Integer Old cell identification
Cell identification of the old cell.
Range: 0 – 268435455
Old band Integer Old band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM

Parameters for TETRA |Top|

Name Type Description
Old LAC Integer Old location area code
Location area code of the old cell.
Range: 0 – 65535
Old Cell ID Integer Old cell identification
Cell identification of the old cell.
Range: 0 – 65535
Old band Integer Old band
20001 = TETRA band 1
20002 = TETRA band 2
20003 = TETRA band 3
20004 = TETRA band 4
20005 = TETRA band 5
20006 = TETRA band 6
20007 = TETRA band 7
20008 = TETRA band 8
20009 = TETRA band 9
20010 = TETRA band 10
20011 = TETRA band 11
20012 = TETRA band 12
20013 = TETRA band 13
20014 = TETRA band 14
20015 = TETRA band 15
29999 = TETRA
Parameters for UMTS FDD |Top|
Name Type Description
Old LAC Integer Old location area code
Location area code of the old cell.
Range: 0 – 65535
Old Cell ID Integer Old cell identification
Cell identification of the old cell.
Range: 0 – 268435455
Old band Integer Old band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
Old LAC Integer Old location area code
Location area code of the old cell.
Range: 0 – 65535
Old Cell ID Integer Old cell identification
Cell identification of the old cell.
Range: 0 – 268435455
Old band Integer Old band
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA

Parameters for LTE |Top|

Name Type Description
Old TAC Integer Old tracking area code
Range: 0 – 65535
Old Cell ID Integer Old cell identification
Cell identification of the old cell.
Range: 0 – 268435455
Old band Integer Old band
70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
80033 = LTE TDD 1900-1920 band 33
80034 = LTE TDD 2010-2025 band 34
80035 = LTE TDD 1850-1910 band 35
80036 = LTE TDD 1930-1990 band 36
80037 = LTE TDD 1910-1930 band 37
80038 = LTE TDD 2570-2620 band 38
80039 = LTE TDD 1880-1920 band 39
80040 = LTE TDD 2300-2400 band 40
80041 = LTE TDD 2496-2690 band 41
80042 = LTE TDD 3400-3600 band 42
80043 = LTE TDD 3600-3800 band 43
80044 = LTE TDD 703-803 band 44
80045 = LTE TDD 1447-1467 band 45
80046 = LTE TDD 5154-5925 band 46
80047 = LTE TDD 5855-5925 band 47
80048 = LTE TDD 3550-3700 band 48
80061 = LTE TDD 1447-1467 band 61
This is a non-standard LTE TDD band.
80062 = LTE TDD 1785-1805 band 62
This is a non-standard LTE TDD band.
80087 = LTE TDD 1447-1467 band 87
This is a non-standard LTE TDD band.
80088 = LTE TDD 1785-1805 band 88
This is a non-standard LTE TDD band.
89999 = LTE TDD

Parameters for cdmaOne, CDMA 1x, and EVDO |Top|

Name Type Description
Old band Integer Old band
100000 = cdmaOne 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
100001 = cdmaOne 1900 band 1
North American PCS 1900 MHz band.
100002 = cdmaOne 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
100003 = cdmaOne 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
100004 = cdmaOne 1800 Korean band 4
Korean PCS 1800 MHz band.
100005 = cdmaOne 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
100006 = cdmaOne 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
100007 = cdmaOne 700 band 7
North American cellular 700 MHz band.
100008 = cdmaOne 1800 band 8
1800 MHz band.
100009 = cdmaOne 900 band 9
900 MHz band.
100010 = cdmaOne 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
100011 = cdmaOne 400 PAMR band 11
European PAMR 400 MHz band.
100012 = cdmaOne 800 PAMR band 12
European PAMR 800 MHz band.
100013 = cdmaOne 2500 band 13
2.5 GHz IMT-2000 extension.
100014 = cdmaOne 1900 band 14
US PCS 1.9 GHz.
100015 = cdmaOne 2100 AWS band 15
100016 = cdmaOne 2500 band 16
US 2.5 GHz.
100018 = cdmaOne 700 public safety band 18
100019 = cdmaOne 700 lower band 19
100020 = cdmaOne 1500 L-band band 20
100021 = cdmaOne 2000 S-band band 21
109999 = cdmaOne
110000 = CDMA 1x 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
110001 = CDMA 1x 1900 band 1
North American PCS 1900 MHz band.
110002 = CDMA 1x 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
110003 = CDMA 1x 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
110004 = CDMA 1x 1800 Korean band 4
Korean PCS 1800 MHz band.
110005 = CDMA 1x 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
110006 = CDMA 1x 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
110007 = CDMA 1x 700 band 7
North American cellular 700 MHz band.
110008 = CDMA 1x 1800 band 8
1800 MHz band.
110009 = CDMA 1x 900 band 9
900 MHz band.
110010 = CDMA 1x 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
110011 = CDMA 1x 400 PAMR band 11
European PAMR 400 MHz band.
110012 = CDMA 1x 800 PAMR band 12
European PAMR 800 MHz band.
110013 = CDMA 1x 2500 band 13
2.5 GHz IMT-2000 extension.
110014 = CDMA 1x 1900 band 14
US PCS 1.9 GHz.
110015 = CDMA 1x 2100 AWS band 15
110016 = CDMA 1x 2500 band 16
US 2.5 GHz.
110018 = CDMA 1x 700 public safety band 18
110019 = CDMA 1x 700 lower band 19
110020 = CDMA 1x 1500 L-band band 20
110021 = CDMA 1x 2000 S-band band 21
119999 = CDMA 1x
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
Old ch Integer Old channel number
Channel number of the old cell.
Old PN Integer Old pilot number
Pilot number of the old cell.
Range: 0 – 511

Parameters for GAN WLAN |Top|

Parameters for iDEN |Top|

Name Type Description
Old band Integer Old band
550001 = iDEN proprietary
550002 = iDEN 800 standard
550003 = iDEN 800 extended
550004 = iDEN 900
550005 = iDEN 1500
559999 = iDEN
Old ch Integer Old channel number
Channel number of the old cell.
Old CC Integer Old color code
Color code of the old cell.
Range: 0 – 15

Current system parameters |Top|

Name Type Description
Serving sys. Integer Serving system
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO
21 = GAN WLAN
55 = iDEN
#Params Integer Number of parameters

Parameters for GSM |Top|

Parameters for TETRA |Top|

Name Type Description
LAC Integer Location area code
Location area code of the new cell.
Range: 0 – 65535
Cell ID Integer Cell identification
Cell identification of the new cell.
Range: 0 – 65535
Band Integer Band
20001 = TETRA band 1
20002 = TETRA band 2
20003 = TETRA band 3
20004 = TETRA band 4
20005 = TETRA band 5
20006 = TETRA band 6
20007 = TETRA band 7
20008 = TETRA band 8
20009 = TETRA band 9
20010 = TETRA band 10
20011 = TETRA band 11
20012 = TETRA band 12
20013 = TETRA band 13
20014 = TETRA band 14
20015 = TETRA band 15
29999 = TETRA

Parameters for UMTS FDD |Top|

Name Type Description
LAC Integer Location area code
Location area code of the new cell.
Range: 0 – 65535
Cell ID Integer Cell identification
Cell identification of the new cell.
Range: 0 – 268435455
Band Integer Band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD

Parameters for UMTS TD-SCDMA |Top|

Parameters for LTE |Top|

Name Type Description
New TAC Integer New tracking area code
Range: 0 – 65535
Cell ID Integer Cell identification
Cell identification of the new cell.
Range: 0 – 268435455
Band Integer Band
70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
80033 = LTE TDD 1900-1920 band 33
80034 = LTE TDD 2010-2025 band 34
80035 = LTE TDD 1850-1910 band 35
80036 = LTE TDD 1930-1990 band 36
80037 = LTE TDD 1910-1930 band 37
80038 = LTE TDD 2570-2620 band 38
80039 = LTE TDD 1880-1920 band 39
80040 = LTE TDD 2300-2400 band 40
80041 = LTE TDD 2496-2690 band 41
80042 = LTE TDD 3400-3600 band 42
80043 = LTE TDD 3600-3800 band 43
80044 = LTE TDD 703-803 band 44
80045 = LTE TDD 1447-1467 band 45
80046 = LTE TDD 5154-5925 band 46
80047 = LTE TDD 5855-5925 band 47
80048 = LTE TDD 3550-3700 band 48
80061 = LTE TDD 1447-1467 band 61
This is a non-standard LTE TDD band.
80062 = LTE TDD 1785-1805 band 62
This is a non-standard LTE TDD band.
80087 = LTE TDD 1447-1467 band 87
This is a non-standard LTE TDD band.
80088 = LTE TDD 1785-1805 band 88
This is a non-standard LTE TDD band.
89999 = LTE TDD

Parameters for cdmaOne, CDMA 1x, and EVDO |Top|

Parameters for GAN WLAN |Top|

Parameters for iDEN |Top|

Cell reselection information (CRELI)

Event ID CRELI
Cellular systems UMTS FDD,LTE FDD,LTE TDD
Record state Always
Description Recorded during the data transfer for LTE to LTE, LTE to HSPA, and HSPA to LTE cell
reselection and redirection.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
#Header Integer Number of header parameters
params
CRS U-plane Integer Cell reselection U-plane interruption time
interruption The time from the last packet in the old cell to the first packet in the new
cell. This parameter is only recorded during the data transfer and only
for LTE to LTE, LTE to HSPA, and HSPA to LTE cell reselections and
redirections.
Minimum value: 0
Unit: ms

Soft handover (SHO)

Event ID SHO
Cellular systems UMTS FDD,cdmaOne,CDMA 1x,EVDO
Record state Call connection and packet active state
Description Recorded when the active set changes. Event information is based on RRC signaling
with UMTS FDD.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for cdmaOne, CDMA 1x, and EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO

Parameters for UMTS FDD |Top|

Name Type Description
SHO status Integer Soft handover status
1 = Successful handover
2 = Failed handover
RRC cause Integer RRC cause
This is the same as a failure cause defined by 3GPP TS 25.331
subclause 10.3.3.13.
0 = Configuration unsupported
1 = Physical channel failure
2 = Incompatible simultaneous reconfiguration
3 = Protocol error
4 = Compressed mode runtime error
5 = Cell update occurred
6 = Invalid configuration
7 = Configuration incomplete
8 = Unsupported measurement
9 = MBMS session already received correctly
10 = Lower priority MBMS service
#SCs added Integer Number of scrambling codes added
#SCs removed Integer Number of scrambling codes removed
Added SC Integer Added scrambling code number
Remove SC Integer Removed scrambling code number

Parameters for cdmaOne, CDMA 1x, and EVDO |Top|

Name Type Description
#Pilot added Integer Number of pilots added
#Pilot removed Integer Number of pilots removed
Added PN Integer Added pilot number
Remove PN Integer Removed pilot number
SHO status Integer Soft handover status
1 = Successful handover
2 = Failed handover
SHO type Integer Soft handover type
1 = Normal
2 = Virtual
Location area update attempt (LUA)
Event ID LUA
Cellular systems GSM,TETRA,UMTS FDD,UMTS TD-SCDMA,GAN WLAN
Record state Always
Description Recorded when the mobile starts location area update using MM layer3 signaling
message. This measurement event begins the location area update state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Location area update Context Location area update context ID
context ID
Measured sys. Integer Measured system
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
21 = GAN WLAN
LAU type Integer Location area update type
1 = Combined location and routing/tracking area update
2 = Normal location area update
3 = Periodic update
4 = IMSI/ITSI attach
5 = Roaming location updating (TETRA)
6 = Migrating location updating (TETRA)
7 = Call restoration roaming location updating (TETRA)
8 = Call restoration migrating location updating (TETRA)
9 = Demand location updating (TETRA)
10 = Disabled MS updating (TETRA)

Location area update successful (LUS)

Event ID LUS
Cellular systems GSM,TETRA,UMTS FDD,UMTS TD-SCDMA,GAN WLAN
Record state Location area update state
Description Recorded based on MM layer3 signaling when location area update has been successful.
This measurement event terminates the location area update state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Location area update Context Location area update context ID
context ID
Measured sys. Integer Measured system
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
21 = GAN WLAN
Old LAC Integer Old location area code
Location area code of the old cell.
Range: 0 – 65535
LAC Integer Location area code
Location area code of the new cell.
Range: 0 – 65535
MCC Integer Mobile country code
See ITU-T recommendation E.212.
Range: 0 – 999
MNC Integer Mobile network code
Range: 0 – 999

Location area update fail (LUF)

Event ID LUF
Cellular systems GSM,TETRA,UMTS FDD,UMTS TD-SCDMA,GAN WLAN
Record state Location area update state
Description Recorded based on MM layer3 signaling when location area update has failed. This
measurement event terminates the location area update state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM, UMTS, and GAN WLAN |Parameters for TETRA |

Parameters |Top|
Name Type Description
Location area update Context Location area update context ID
context ID
Measured sys. Integer Measured system
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
21 = GAN WLAN
LUF status Integer Location update failure status
1 = Timeout
2 = Rejected by network
3 = Rejected by network after combined location and routing
area update (cause value is GMM cause)
Old LAC Integer Old location area code
Location area code of the old cell.
Range: 0 – 65535

Parameters for GSM, UMTS, and GAN WLAN |Top|

Name Type Description
MM cause Integer Mobily management cause
1 = Unallocated TMSI
2 = IMSI unknown HLR
3 = Illegal MS
4 = IMSI unknown in VLR
5 = IMEI not accepted
6 = Illegal ME
7 = GPRS services not allowed
Combined LAU and RAU only.
8 = GPRS services and non-GPRS services not allowed
Combined LAU and RAU only.
9 = MS identity cannot be derived by the network
Combined LAU and RAU only.
10 = Implicitly detached
Combined LAU and RAU only.
11 = PLMN not allowed
12 = Location Area not allowed
13 = National roaming not allowed in this location area
14 = GPRS services not allowed in this PLMN
Combined LAU and RAU only.
15 = No suitable cells in location area
16 = MSC temporarily not reachable
Combined LAU and RAU only.
17 = Network failure
20 = MAC failure
21 = Synch failure
22 = Congestion
23 = GSM authentication unacceptable
32 = Service option not supported
33 = Requested service option not subscribed
34 = Service option temporarily out of order
38 = Call cannot be identified
40 = No PDP context activated
Combined LAU and RAU only.
95 = Semantically incorrect message
96 = Invalid mandatory information
97 = Message type non-existent or not implemented
98 = Message type not compatible with the protocol state
99 = Information element non-existent or not implemented
100 = Conditional IE error
101 = Message not compatible with the protocol state
111 = Protocol error, unspecified

Parameters for TETRA |Top|

Name Type Description
MM cause Integer Mobily management cause
1 = ITSI unknown
2 = Illegal MS
3 = LA not allowed
4 = LA unknown
5 = Network failure
6 = Congestion
7 = Service not supported
8 = Service not subscribed
9 = Mandatory element error
10 = Message consistency error
11 = Roaming not supported
12 = Migration not supported
13 = No cipher KSG
14 = Identified cipher KSG not supported
15 = Requested cipher key type not available
16 = Identified cipher key not available
17 = Incompatible service
Channel info (CHI)
Event ID CHI
Cellular systems GSM,TETRA,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,cdmaOne,CDMA
1x,EVDO,GAN WLAN,WiMAX,AMPS,DAMPS,iDEN
Record state Always
Description Recorded when channel configuration information changes.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM |Parameters for TETRA |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |Parameters for LTE
|Parameters for cdmaOne and CDMA 1x |Parameters for EVDO |Parameters for GAN WLAN |Parameters for WiMAX |Parameters for AMPS and NAMPS
|Parameters for DAMPS |Parameters for iDEN |

Parameters |Top|
Name Type Description
Serving sys. Integer Serving system
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO
21 = GAN WLAN
25 = WiMAX
51 = AMPS
52 = NAMPS
53 = DAMPS
55 = iDEN

Parameters for GSM |Top|

Name Type Description
Band Integer Band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM
Ch type Integer GSM channel type
1 = Control channel
2 = Traffic channel
Ch Integer Channel number
During the active state this is the TCH channel number. If the hopping
is enabled the first hopping channel is reported.
Cell ID Integer Cell identification
Cell identity of the current cell. For GSM this is 16 bit value, for UMTS
this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this is 28 bit
value (eNB ID + 8 bit cell ID).
Range: 0 – 65535
LAC Integer Location area code
Range: 0 – 65535
DTX UL Integer DTX uplink
0 = DTX not in use
1 = DTX in use
RLT max Integer Radiolink timeout maximum
Defines the maximum value for the radio link timeout counter.
Range: 4 – 64
Ext. ch type Integer Extended channel type
1 = BCCH
2 = CCCH
3 = CBCH
4 = SDCCH
5 = RACH
10 = TCH HR/0
TCH half rate, first half.
11 = TCH HR/1
TCH half rate, second half.
12 = TCH FR
TCH full rate.
13 = TCH EFR
TCH enhanced full rate.
14 = TCH FR 14.4 data
TCH full rate, 14.4 kbs data.
15 = TCH FR 9.6 data
16 = TCH FR 7.2 data
17 = TCH FR 4.8 data
18 = TCH FR 2.4 data
19 = TCH HR/0 4.8 data
20 = TCH HR/1 4.8 data
21 = TCH HR/0 2.4 data
22 = TCH HR/1 2.4 data
23 = TCH FR FACCH
24 = TCH HR/0 FACCH
25 = TCH HR/1 FACCH
26 = AFS
AMR adaptive full rate speech.
27 = AHS
AMR adaptive half rate speech.
28 = WFS
AMR adaptive full rate for wideband speech.
50 = PBCCH
51 = PCCCH
60 = PDTCH
TSL Integer Timeslot number
BCCH ch Integer BCCH channel
BSIC Integer Base station identification code
Range: 0 – 63
BCCH band Integer BCCH band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM

Parameters for TETRA |Top|

Name Type Description
Band Integer Band
20001 = TETRA band 1
20002 = TETRA band 2
20003 = TETRA band 3
20004 = TETRA band 4
20005 = TETRA band 5
20006 = TETRA band 6
20007 = TETRA band 7
20008 = TETRA band 8
20009 = TETRA band 9
20010 = TETRA band 10
20011 = TETRA band 11
20012 = TETRA band 12
20013 = TETRA band 13
20014 = TETRA band 14
20015 = TETRA band 15
29999 = TETRA
Subchannel Integer Subchannel
1 = MCCH (main control channel)
2 = TCH (traffic channel)
Ch Integer Channel number
LAC Integer Location area code
Range: 0 – 65535
Extended Integer Extended subchannel
subchannel 0 = Speech, TCH / S
1 = Data, Unprotected TCH / 7.2
2 = Data, Low protection, TCH / 4.8, N=1
3 = Data, Low protection, TCH / 4.8, N=4
4 = Data, Low protection, TCH / 4.8, N=8
5 = Data, High protection, TCH / 2.4, N=1
6 = Data, High protection, TCH / 2.4, N=4
7 = Data, High protection, TCH / 2.4, N=8
Encryption Integer Encryption
0 = Clear mode
1 = End-to-end encryption
Slot number Integer Slot number
Range: 1 – 4

Parameters for UMTS FDD |Top|

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
Band Integer Band
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA
RRC state Integer RRC state
1 = Idle
2 = URA PCH
3 = Cell PCH
4 = Cell FACH
5 = Cell DCH
Ch Integer Channel number
Cell params ID Integer Cell parameters ID
Range: 0 – 127
Cell ID Integer Cell identification
Cell identity of the current cell. For GSM this is 16 bit value, for UMTS
this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this is 28 bit
value (eNB ID + 8 bit cell ID).
Range: 0 – 268435455
LAC Integer Location area code
Range: 0 – 65535
DRX cycle Integer DRX cycle length
Defines how often paging indications are monitored.
Range: 0 – 512
Max TX power Float Max TX power
Maximum allowed uplink power.
Range: −50 – 40
Unit: dBm
Treselection Integer Treselection
The time which the new cell has had to be ranked better than the old
cell before cell reselection is possible. See 3GPP TS 25.304
subclause 5.2.6.1.4.
Unit: s

Parameters for LTE |Top|

Name Type Description
Band Integer Band
70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
80033 = LTE TDD 1900-1920 band 33
80034 = LTE TDD 2010-2025 band 34
80035 = LTE TDD 1850-1910 band 35
80036 = LTE TDD 1930-1990 band 36
80037 = LTE TDD 1910-1930 band 37
80038 = LTE TDD 2570-2620 band 38
80039 = LTE TDD 1880-1920 band 39
80040 = LTE TDD 2300-2400 band 40
80041 = LTE TDD 2496-2690 band 41
80042 = LTE TDD 3400-3600 band 42
80043 = LTE TDD 3600-3800 band 43
80044 = LTE TDD 703-803 band 44
80045 = LTE TDD 1447-1467 band 45
80046 = LTE TDD 5154-5925 band 46
80047 = LTE TDD 5855-5925 band 47
80048 = LTE TDD 3550-3700 band 48
80061 = LTE TDD 1447-1467 band 61
This is a non-standard LTE TDD band.
80062 = LTE TDD 1785-1805 band 62
This is a non-standard LTE TDD band.
80087 = LTE TDD 1447-1467 band 87
This is a non-standard LTE TDD band.
80088 = LTE TDD 1785-1805 band 88
This is a non-standard LTE TDD band.
89999 = LTE TDD
RRC state Integer RRC state
See 3GPP TS 136.331 subclause 4.2.1.
1 = Idle
This is the same as E-UTRA RRC_IDLE state.
2 = Connected
This is the same as E-UTRA RRC_CONNECTED state.
DL BW Integer DL bandwidth
1 = 180 kHz
Used with NB-IoT.
6 = 1.4 MHz
15 = 3 MHz
25 = 5 MHz
50 = 10 MHz
75 = 15 MHz
100 = 20 MHz
Ch Integer Channel number
PCI Integer Physical cell identity
Range: 0 – 503
Cell ID Integer Cell identification
Cell identity of the current cell. For GSM this is 16 bit value, for UMTS
this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this is 28 bit
value (eNB ID + 8 bit cell ID).
Range: 0 – 268435455
TAC Integer Tracking area code
Tracking area code of the current serving cell. See 3GPP TS 124.301
subclause 9.9.3.32.
Range: 0 – 65535
Max TX power Float Max TX power
Maximum allowed uplink power.
Range: −50 – 40
Unit: dBm
TM Integer Transmission mode
See 3GPP TS 136.213 subclase 7.1.
1 = Single antenna (P0)
Single-antenna port 0. Same as transmission mode 1.
2 = Transmit diversity
Transmit diversity using SFBC. Same as transmission mode 2.
3 = Open SM
Open-loop spatial multiplexing a.k.a. large delay cyclic delay
diversity (CDD) or transmit diversity. Same as transmission mode
3.
4 = Closed SM
Closed-loop spatial multiplexing or transmit diversity. Same as
transmission mode 4.
5 = MU-MIMO
Multi-user MIMO or transmit diversity. Same as transmission
mode 5.
6 = Closed SM rank 1
Closed-loop spatial multiplexing using single transmission layer
(similar with mode 5 with rank fixed to one). Same as
transmission mode 6.
7 = Single antenna (P5)
Single-antenna port 5, or port 0 (if one PBCH antenna port) or
transmit diversity. Same as transmission mode 7.
8 = Dual-layer (P7, P8)
Dual layer port 7 and 8 or single-antenna port 7 or 8 transmission.
Same as tranmsission mode 8.
9 = 8 layer (P7-P14)
Up to 8 layer transmission (P7-P14).
10 = 3 layer beamforming (P7-P9)
11 = 4 layer beamforming (P7-10)
Antenna ports Integer Detected TX antenna ports
0 = Port 0
1 = Ports 0-1
3 = Ports 0-3
UL/DL config Integer TDD UL/DL configuration
TDD UL/DL configuration defines the symbols that are allocated for
uplink and downlink. See 3GPP 36.211 subclause 4.2.
0 = Config 0
Allocated uplink subframes are: 2, 3, 4, 7, 8, 9.
1 = Config 1
Allocated uplink subframes are: 2, 3, 7, 8.
2 = Config 2
Allocated uplink subframes are: 2, 7.
3 = Config 3
Allocated uplink subframes are: 2, 3, 4.
4 = Config 4
Allocated uplink subframes are: 2, 3.
5 = Config 5
Allocated uplink subframe is: 2.
6 = Config 6
Allocated uplink subframes are: 2, 3, 4, 7, 8.
CP Integer Cyclic prefix UL
This is uplink cyclic prefix. Extended cyclic prefix can reduce inter-
symbol-interference when multipath components have significant
arrival time deviation from each other.
1 = Normal 15 kHz
2 = Extended 15 kHz
Root sequence Integer RACH logical root sequence index
Logical root Zadoff-Chu sequence order number. See 3GPP 136.211
subclause 5.7.2.
Range: 0 – 837
C-RNTI Integer C-RNTI
Cell Radio Network Temporary Identifier. A dynamic identity assigned
by eNodeB and is valid as long as the UE is connected to that eNB.
#SCells Integer Number of secondary serving cells
Range: 0 – 3
#Params/SCell Integer Number of parameters per secondary serving cell
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell index.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4
Band Integer SCell band
70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
80033 = LTE TDD 1900-1920 band 33
80034 = LTE TDD 2010-2025 band 34
80035 = LTE TDD 1850-1910 band 35
80036 = LTE TDD 1930-1990 band 36
80037 = LTE TDD 1910-1930 band 37
80038 = LTE TDD 2570-2620 band 38
80039 = LTE TDD 1880-1920 band 39
80040 = LTE TDD 2300-2400 band 40
80041 = LTE TDD 2496-2690 band 41
80042 = LTE TDD 3400-3600 band 42
80043 = LTE TDD 3600-3800 band 43
80044 = LTE TDD 703-803 band 44
80045 = LTE TDD 1447-1467 band 45
80046 = LTE TDD 5154-5925 band 46
80047 = LTE TDD 5855-5925 band 47
80048 = LTE TDD 3550-3700 band 48
80061 = LTE TDD 1447-1467 band 61
This is a non-standard LTE TDD band.
80062 = LTE TDD 1785-1805 band 62
This is a non-standard LTE TDD band.
80087 = LTE TDD 1447-1467 band 87
This is a non-standard LTE TDD band.
80088 = LTE TDD 1785-1805 band 88
This is a non-standard LTE TDD band.
89999 = LTE TDD
Bandwidth Integer SCell bandwidth
6 = 1.4 MHz
15 = 3 MHz
25 = 5 MHz
50 = 10 MHz
75 = 15 MHz
100 = 20 MHz
Channel Integer SCell channel
PCI Integer SCell physical cell identity
Range: 0 – 503
TM Integer SCell transmission mode
See 3GPP TS 136.213 subclase 7.1.
1 = Single antenna (P0)
Single-antenna port 0. Same as transmission mode 1.
2 = Transmit diversity
Transmit diversity using SFBC. Same as transmission mode 2.
3 = Open SM
Open-loop spatial multiplexing a.k.a. large delay cyclic delay
diversity (CDD) or transmit diversity. Same as transmission mode
3.
4 = Closed SM
Closed-loop spatial multiplexing or transmit diversity. Same as
transmission mode 4.
5 = MU-MIMO
Multi-user MIMO or transmit diversity. Same as transmission
mode 5.
6 = Closed SM rank 1
Closed-loop spatial multiplexing using single transmission layer
(similar with mode 5 with rank fixed to one). Same as
transmission mode 6.
7 = Single antenna (P5)
Single-antenna port 5, or port 0 (if one PBCH antenna port) or
transmit diversity. Same as transmission mode 7.
8 = Dual-layer (P7, P8)
Dual layer port 7 and 8 or single-antenna port 7 or 8 transmission.
Same as tranmsission mode 8.
9 = 8 layer (P7-P14)
Up to 8 layer transmission (P7-P14).
10 = 3 layer beamforming (P7-P9)
11 = 4 layer beamforming (P7-10)
Antenna ports Integer SCell detected TX antenna ports
0 = Port 0
1 = Ports 0-1
3 = Ports 0-3
UL/DL config Integer SCell TDD UL/DL configuration
TDD UL/DL configuration defines the symbols that are allocated for
uplink and downlink. See 3GPP 36.211 subclause 4.2.
0 = Config 0
Allocated uplink subframes are: 2, 3, 4, 7, 8, 9.
1 = Config 1
Allocated uplink subframes are: 2, 3, 7, 8.
2 = Config 2
Allocated uplink subframes are: 2, 7.
3 = Config 3
Allocated uplink subframes are: 2, 3, 4.
4 = Config 4
Allocated uplink subframes are: 2, 3.
5 = Config 5
Allocated uplink subframe is: 2.
6 = Config 6
Allocated uplink subframes are: 2, 3, 4, 7, 8.
CP Integer SCell cyclic prefix
This is uplink cyclic prefix. Extended cyclic prefix can reduce inter-
symbol-interference when multipath components have significant
arrival time deviation from each other.
1 = Normal 15 kHz
2 = Extended 15 kHz
Special Integer SCell TDD special subframe configuration
subframe config This parameter defines the duration of special subframes between
uplink and downlink switching. See 3GPP 136.211 subclause 4.2.
0 = Config 0
1 = Config 1
2 = Config 2
3 = Config 3
4 = Config 4
5 = Config 5
6 = Config 6
7 = Config 7
8 = Config 8
9 = Config 9
CA Integer SCell carrier aggregation mode
1 = DL
2 = UL+DL
EMM substate Integer EMM substate
See 3GPP 124.301 subclause 5.1.3.
0 = Null
100 = Deregistered, normal service
101 = Deregistered, attempting to attach
102 = Deregistered, limited service
103 = Deregistered, PLMN search
104 = Deregistered, attach needed
105 = Deregistered, no cell available
106 = Deregistered, no IMSI
200 = Registered initiated
201 = Registered initiated, waiting NW response
202 = Registered initiated, waiting ESM response
300 = Registered, normal service
301 = Registered, attempting to update
302 = Registered, limited service
303 = Registered, PLMN search
304 = Registered, update needed
305 = Registered, no cell available
306 = Registered, IMSI detach initiated
307 = Registered, attempting to update MM
400 = Deregistered initiated
500 = TAU initiated, normal service
Tracking area update initiated.
501 = TAU initiated, attempting to update
502 = TAU initiated, limited service
503 = TAU initiated, PLMN search
504 = TAU initiated, update needed
505 = TAU initiated, no cell available
506 = TAU initiated, IMSI detach initiated
507 = TAU initiated, attempting to update MM
600 = SR initiated, normal service
Service request initiated.
601 = SR initiated, attempting to update
602 = SR initiated, limited service
603 = SR initiated, PLMN search
604 = SR initiated, update needed
605 = SR initiated, no cell available
606 = SR initiated, IMSI detach initiated
607 = SR initiated, attempting to update MM
Periodic RM Integer CQI periodic reporting mode
See 3GPP TS 136.213 subclause 7.2.2.
1 = Mode 1-0
Wideband CQI without PMI. Valid in transmission modes 1-3 and
7.
2 = Mode 1-1
Wideband CQI with PMI. Valid in transmission modes 4-6.
3 = Mode 2-0
UE selected CQI without PMI. Valid in transmission modes 1-3
and 7.
4 = Mode 2-1
UE selected CQI with PMI. Valid in transmission modes 4-6.
Aperiodic RM Integer CQI aperiodic reporting mode
This is the same as cqi-ReportModeAperiodic parameter in CQI-
ReportConfig. More information see 3GPP TS 136.213 subclause
7.2.1.
1 = Mode 1-2
Wideband CQI with multiple PMI. Valid in transmission modes 4
and 6.
2 = Mode 2-0
UE selected CQI without PMI. Valid in transmission modes 1-3
and 7.
3 = Mode 2-2
UE selected CQI with multiple PMI. Valid in transmission modes 4
and 6.
4 = Mode 3-0
Higher layer-configured CQI without PMI. Valid in transmission
modes 1-3 and 7.
5 = Mode 3-1
Higher layer-configured CQI with single PMI. Valid in transmission
modes 4-6.
Special subframe Integer TDD special subframe configuration
config This parameter defines the duration of special subframes between
uplink and downlink switching. See 3GPP 136.211 subclause 4.2.
0 = Config 0
1 = Config 1
2 = Config 2
3 = Config 3
4 = Config 4
5 = Config 5
6 = Config 6
7 = Config 7
8 = Config 8
9 = Config 9
TTI bundling Integer TTI bundling
See 3GPP TS 136.321 subclause 5.4.2.
0 = Disabled
1 = Enabled
Operation mode Integer Operation mode
See 3GPP TS 136.331 subclause 6.7.2 MasterInformationBlock-NB.
100 = Inband same PCI
101 = Inband different PCI
102 = Guardband
103 = Standalone
UL subcarrier Integer UL subcarrier spacing
spacing See 3GPP TS 136.221 subclause 10.1.2 and 3GPP TS 136.213
subclause 16.
0 = 3.75 kHz
1 = 15 kHz

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
Band Integer Band
100000 = cdmaOne 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
100001 = cdmaOne 1900 band 1
North American PCS 1900 MHz band.
100002 = cdmaOne 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
100003 = cdmaOne 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
100004 = cdmaOne 1800 Korean band 4
Korean PCS 1800 MHz band.
100005 = cdmaOne 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
100006 = cdmaOne 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
100007 = cdmaOne 700 band 7
North American cellular 700 MHz band.
100008 = cdmaOne 1800 band 8
1800 MHz band.
100009 = cdmaOne 900 band 9
900 MHz band.
100010 = cdmaOne 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
100011 = cdmaOne 400 PAMR band 11
European PAMR 400 MHz band.
100012 = cdmaOne 800 PAMR band 12
European PAMR 800 MHz band.
100013 = cdmaOne 2500 band 13
2.5 GHz IMT-2000 extension.
100014 = cdmaOne 1900 band 14
US PCS 1.9 GHz.
100015 = cdmaOne 2100 AWS band 15
100016 = cdmaOne 2500 band 16
US 2.5 GHz.
100018 = cdmaOne 700 public safety band 18
100019 = cdmaOne 700 lower band 19
100020 = cdmaOne 1500 L-band band 20
100021 = cdmaOne 2000 S-band band 21
109999 = cdmaOne
110000 = CDMA 1x 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
110001 = CDMA 1x 1900 band 1
North American PCS 1900 MHz band.
110002 = CDMA 1x 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
110003 = CDMA 1x 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
110004 = CDMA 1x 1800 Korean band 4
Korean PCS 1800 MHz band.
110005 = CDMA 1x 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
110006 = CDMA 1x 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
110007 = CDMA 1x 700 band 7
North American cellular 700 MHz band.
110008 = CDMA 1x 1800 band 8
1800 MHz band.
110009 = CDMA 1x 900 band 9
900 MHz band.
110010 = CDMA 1x 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
110011 = CDMA 1x 400 PAMR band 11
European PAMR 400 MHz band.
110012 = CDMA 1x 800 PAMR band 12
European PAMR 800 MHz band.
110013 = CDMA 1x 2500 band 13
2.5 GHz IMT-2000 extension.
110014 = CDMA 1x 1900 band 14
US PCS 1.9 GHz.
110015 = CDMA 1x 2100 AWS band 15
110016 = CDMA 1x 2500 band 16
US 2.5 GHz.
110018 = CDMA 1x 700 public safety band 18
110019 = CDMA 1x 700 lower band 19
110020 = CDMA 1x 1500 L-band band 20
110021 = CDMA 1x 2000 S-band band 21
119999 = CDMA 1x
Ch type Integer CDMA channel type
1 = Control channel
2 = Traffic channel
3 = Synch channel
4 = Access channel
Ch Integer Channel number
MCC (CDMA) Integer MCC (CDMA)
See ITU-T recommendation E.212.
Range: 0 – 999
SID (System ID) Integer SID (System ID)
Range: 0 – 32767
NID (Network ID) Integer NID (Network ID)
Slotted mode Integer Slotted mode
Slotted mode is used for power conservation while a mobile station is
in idle mode. The MS monitors only selected time slots on the Paging
Channel.
0 = Disabled
1 = Enabled
SEARCH_WIN_A Integer SEARCH_WIN_A (Size of active search window)
Size of active search window. Searchers are used to find multipath
signals to improve signal reception. Search_Win_A (active) is used to
search active and candidate pilots. Active sets are channels that are
associated with the forward channel traffic which are assigned to the
mobile station. Candidate pilots are searched from additional
multipaths in the same channels.
SEARCH_WIN_N Integer SEARCH_WIN_N (Size of neighbor search window)
Size of neighbor search window. Searchers are used to find multipath
signals to improve signal reception. Search_Win_N (neighbor) is used
to search adjacent pilots. Candidate set of pilots received by the
mobile station whose power exceeds a certain threshold and could be
demodulated.
SEARCH_WIN_R Integer SEARCH_WIN_R (Size of remaining search window)
Searchers are used to find multipath signals to improve signal
reception. Search_Win_R (remaining) is used to search the remaining
pilot set. Remaining set of all possible pilots in the system that are not
currently assigned to any of the other sets.
T_ADD Integer T_ADD (Pilot detection threshold)
To get the actual T_ADD value, divide the value by two and change
the sign.
T_DROP Integer T_DROP (Pilot drop threshold)
To get the actual T_ADD value, divide the value by two and change
the sign.
T_TDROP Integer T_TDROP (Pilot drop timer threshold)
T_COMP Integer T_COMP (Comparison threshold)
Active set versus candidate set comparison threshold (L3 value). To
get the actual T_ADD value, divide the value by two and change the
sign.
P_REV Integer P_REV (protocol revision level)
1 = J-STD-008 in PCS Band Only
2 = IS-95 in Cellular Band Only
3 = IS-95A + TSB74
4 = IS-95B Partial
5 = IS-95B Full
6 = IS-2000 Release 0
7 = IS-2000 Release A
8 = IS-2000 Release B Partial
9 = IS-2000 Release B Full
10 = IS-2000 Release C
11 = IS-2000 Release D (1xEV-DV)
MIN_P_REV Integer MIN_P_REV (Minimum protocol revision level)
1 = J-STD-008 in PCS Band Only
2 = IS-95 in Cellular Band Only
3 = IS-95A + TSB74
4 = IS-95B Partial
5 = IS-95B Full
6 = IS-2000 Release 0
7 = IS-2000 Release A
8 = IS-2000 Release B Partial
9 = IS-2000 Release B Full
10 = IS-2000 Release C
11 = IS-2000 Release D (1xEV-DV)
MNC (CDMA) Integer MNC (CDMA)
Range: 0 – 999

Parameters for EVDO |Top|

Name Type Description
Band Integer Band
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
SID (System ID) Integer SID (System ID)
Range: 0 – 32767

Parameters for GAN WLAN |Top|

Name Type Description
Band Integer Band
219999 = GAN WLAN
Cell ID Integer Cell identification
Cell identity of the current cell. For GSM this is 16 bit value, for UMTS
this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this is 28 bit
value (eNB ID + 8 bit cell ID).
Range: 0 – 268435455
LAC Integer Location area code
Range: 0 – 65535

Parameters for WiMAX |Top|

Name Type Description
Band Integer Band
259999 = WiMAX
MAC state Integer WiMAX MAC state
0 = Not initialized
1 = Physical failure
2 = MAC failure
10 = Network entry initial synchronization
11 = Network entry initial DCD
12 = Network entry initial UCD
13 = Network entry initial ranging
14 = Network entry initial sign-on
15 = Network entry initial negotiation
16 = Network entry initial registration
17 = Network entry initial PKM
30 = Normal operation
31 = Sleep mode
40 = Handover periodic scan
41 = Handover transition
42 = Handover network entry
60 = Idle mode
61 = Idle mode location update
62 = Idle mode paging
63 = Idle mode network entry
Frequency Float WiMAX frequency
Unit: MHz
BS ID String WiMAX base station ID
Six colon separated hex values.
FFT Size Integer WiMAX FFT size
Bandwidth Float WiMAX bandwidth
Unit: MHz
Frame ratio DL Integer WiMAX frame ratio downlink
Range: 0 – 100
Frame ratio UL Integer WiMAX frame ratio uplink
Range: 0 – 100
MAP coding Integer WiMAX coding type used on DL-MAP
1 = Tail biting convolutional code (CC)
2 = Block turbo code (BTC)
3 = Convolutional turbo code (CTC)
4 = Zero tail convolutional code (ZTCC)
5 = Low density parity check code (LDPC)
MAP repetition Integer WiMAX repetition coding used on DL-MAP
1 = No repetition
2 = Repetition coding 2
4 = Repetition coding 4
6 = Repetition coding 6

Parameters for AMPS and NAMPS |Top|

Name Type Description
Band Integer Band
510800 = AMPS 800
519999 = AMPS
520800 = NAMPS 800
529999 = NAMPS
Ch type Integer AMPS channel type
1 = Analog control channel
2 = Analog traffic channel
Ch Integer Channel number
Parameters for DAMPS |Top|
Name Type Description
Band Integer Band
530800 = DAMPS 800
531900 = DAMPS 1900
539999 = DAMPS
Ch type Integer TDMA channel type
1 = Digital control channel
2 = Digital traffic channel
3 = Data channel
Ch Integer Channel number
NW type Integer NW type
PSID1 Integer PSID1
PSID (private system identification) value 1.
PSID2 Integer PSID2
PSID (private system identification) value 2.
PSID3 Integer PSID3
PSID (private system identification) value 3.
PSID4 Integer PSID4
PSID (private system identification) value 4.
LAREG Integer LAREG
Range: 0 – 1
RNUM Integer RNUM
If LAREG parameter has the value of 1, RNUM parameter will have a
value.
REG PERIOD Integer REG PERIOD
If not available, set to -1.

Parameters for iDEN |Top|

Name Type Description
Band Integer Band
550001 = iDEN proprietary
550002 = iDEN 800 standard
550003 = iDEN 800 extended
550004 = iDEN 900
550005 = iDEN 1500
559999 = iDEN
Ch Integer Channel number
CC Integer Color code
Range: 0 – 15
Frequency Integer Frequency
Unit: Hz
Cell ID Integer Cell identifier
Range: 0 – 65535
Adaptation rate Integer Adaptation rate
Range: 0 – 4
Cutback level Float Cutback level
Range: 0 – −100
Unit: dB
Monitor all flag Integer Monitor all flag
Range: 0 – 255
Monitor paging Integer Monitor paging subchannel
subchannel Range: 0 – 255
Interconnect paging Integer Interconnect paging subchannel
subchannel Range: 0 – 255
Packet data paging Integer Packet data paging subchannel
subchannel Range: 0 – 255
Dispatch paging Integer Dispatch paging subchannel
subchannel Range: 0 – 255
Interleave Integer Interleave
Range: 0 – 255
Offset Integer Offset
Range: 0 – 255
Subslot Integer Subslot
0 = Subslot A
1 = Subslot B
Extended color Integer Extended color code
code Range: 0 – 15

Secondary system channel info (SCHI)

Event ID SCHI
Cellular systems cdmaOne,CDMA 1x,EVDO
Record state Always
Description Recorded for the secondary system with dual-radio devices when the information
changes.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for cdmaOne and CDMA 1x |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
10 = cdmaOne
11 = CDMA 1x

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
Band Integer Band
100000 = cdmaOne 800 band 0
North American cellular 800 MHz band, also in Korea,
Australia, Hong Kong, China, Taiwan, and others.
100001 = cdmaOne 1900 band 1
North American PCS 1900 MHz band.
100002 = cdmaOne 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
100003 = cdmaOne 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
100004 = cdmaOne 1800 Korean band 4
Korean PCS 1800 MHz band.
100005 = cdmaOne 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
100006 = cdmaOne 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
100007 = cdmaOne 700 band 7
North American cellular 700 MHz band.
100008 = cdmaOne 1800 band 8
1800 MHz band.
100009 = cdmaOne 900 band 9
900 MHz band.
100010 = cdmaOne 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
100011 = cdmaOne 400 PAMR band 11
European PAMR 400 MHz band.
100012 = cdmaOne 800 PAMR band 12
European PAMR 800 MHz band.
100013 = cdmaOne 2500 band 13
2.5 GHz IMT-2000 extension.
100014 = cdmaOne 1900 band 14
US PCS 1.9 GHz.
100015 = cdmaOne 2100 AWS band 15
100016 = cdmaOne 2500 band 16
US 2.5 GHz.
100018 = cdmaOne 700 public safety band 18
100019 = cdmaOne 700 lower band 19
100020 = cdmaOne 1500 L-band band 20
100021 = cdmaOne 2000 S-band band 21
109999 = cdmaOne
110000 = CDMA 1x 800 band 0
North American cellular 800 MHz band, also in Korea,
Australia, Hong Kong, China, Taiwan, and others.
110001 = CDMA 1x 1900 band 1
North American PCS 1900 MHz band.
110002 = CDMA 1x 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
110003 = CDMA 1x 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
110004 = CDMA 1x 1800 Korean band 4
Korean PCS 1800 MHz band.
110005 = CDMA 1x 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
110006 = CDMA 1x 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
110007 = CDMA 1x 700 band 7
North American cellular 700 MHz band.
110008 = CDMA 1x 1800 band 8
1800 MHz band.
110009 = CDMA 1x 900 band 9
900 MHz band.
110010 = CDMA 1x 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
110011 = CDMA 1x 400 PAMR band 11
European PAMR 400 MHz band.
110012 = CDMA 1x 800 PAMR band 12
European PAMR 800 MHz band.
110013 = CDMA 1x 2500 band 13
2.5 GHz IMT-2000 extension.
110014 = CDMA 1x 1900 band 14
US PCS 1.9 GHz.
110015 = CDMA 1x 2100 AWS band 15
110016 = CDMA 1x 2500 band 16
US 2.5 GHz.
110018 = CDMA 1x 700 public safety band 18
110019 = CDMA 1x 700 lower band 19
110020 = CDMA 1x 1500 L-band band 20
110021 = CDMA 1x 2000 S-band band 21
119999 = CDMA 1x
Ch type Integer CDMA channel type
1 = Control channel
2 = Traffic channel
3 = Synch channel
4 = Access channel
S.Ch Integer Secondary channel number
MCC (CDMA) Integer MCC (CDMA)
See ITU-T recommendation E.212.
Range: 0 – 999
SID (System ID) Integer SID (System ID)
Range: 0 – 32767
NID (Network ID) Integer NID (Network ID)
Slotted mode Integer Slotted mode
Slotted mode is used for power conservation while a mobile
station is in idle mode. The MS monitors only selected time
slots on the Paging Channel.
0 = Disabled
1 = Enabled
SEARCH_WIN_A Integer SEARCH_WIN_A (Size of active search window)
Size of active search window. Searchers are used to find
multipath signals to improve signal reception. Search_Win_A
(active) is used to search active and candidate pilots. Active
sets are channels that are associated with the forward channel
traffic which are assigned to the mobile station. Candidate pilots
are searched from additional multipaths in the same channels.
SEARCH_WIN_N Integer SEARCH_WIN_N (Size of neighbor search window)
Size of neighbor search window. Searchers are used to find
multipath signals to improve signal reception. Search_Win_N
(neighbor) is used to search adjacent pilots. Candidate set of
pilots received by the mobile station whose power exceeds a
certain threshold and could be demodulated.
SEARCH_WIN_R Integer SEARCH_WIN_R (Size of remaining search window)
Searchers are used to find multipath signals to improve signal
reception. Search_Win_R (remaining) is used to search the
remaining pilot set. Remaining set of all possible pilots in the
system that are not currently assigned to any of the other sets.
T_ADD Integer T_ADD (Pilot detection threshold)
To get the actual T_ADD value, divide the value by two and
change the sign.
T_DROP Integer T_DROP (Pilot drop threshold)
To get the actual T_ADD value, divide the value by two and
change the sign.
T_TDROP Integer T_TDROP (Pilot drop timer threshold)
T_COMP Integer T_COMP (Comparison threshold)
Active set versus candidate set comparison threshold (L3
value). To get the actual T_ADD value, divide the value by two
and change the sign.
P_REV Integer P_REV (protocol revision level)
1 = J-STD-008 in PCS Band Only
2 = IS-95 in Cellular Band Only
3 = IS-95A + TSB74
4 = IS-95B Partial
5 = IS-95B Full
6 = IS-2000 Release 0
7 = IS-2000 Release A
8 = IS-2000 Release B Partial
9 = IS-2000 Release B Full
10 = IS-2000 Release C
11 = IS-2000 Release D (1xEV-DV)
MIN_P_REV Integer MIN_P_REV (Minimum protocol revision level)
1 = J-STD-008 in PCS Band Only
2 = IS-95 in Cellular Band Only
3 = IS-95A + TSB74
4 = IS-95B Partial
5 = IS-95B Full
6 = IS-2000 Release 0
7 = IS-2000 Release A
8 = IS-2000 Release B Partial
9 = IS-2000 Release B Full
10 = IS-2000 Release C
11 = IS-2000 Release D (1xEV-DV)
MNC (CDMA) Integer MNC (CDMA)
Range: 0 – 999
WLAN channel info (WLANCHI)
Event ID WLANCHI
Cellular systems WLAN
Record state Always
Description Recorded when WLAN state changes.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for WLAN |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
20 = WLAN

Parameters for WLAN |Top|

Name Type Description
WLAN state Integer WLAN state
0 = Disabled
1 = Enabled
Note that in the future there can be other non-zero enabled-
states.

GAN Channel info (GANCHI)

Event ID GANCHI
Cellular systems GAN WLAN
Record state Always
Description Recorded when GAN-specific channel information changes.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GAN WLAN |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
21 = GAN WLAN

Parameters for GAN WLAN |Top|

Name Type Description
#Header params Integer Number of header parameters
GAN state Integer GAN state
1 = Deregistered
2 = Registered
3 = Idle
4 = Dedicated
GAN channel Integer GAN channel number
Range: 0 – 1023
GAN BSIC Integer GAN base station identification code
Range: 0 – 63
GAN CI Integer GAN cell identification
Range: 0 – 65535
GAN LAC Integer GAN location area code
Range: 0 – 65535
GANC IP String GANC IP address
SEGW IP String GANC security gateway IP address

Service information (SEI)

Event ID SEI
Cellular systems All
Record state Always
Description Recorded when service state or mobility information changes.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM, UMTS, and LTE |Parameters for iDEN |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
55 = iDEN
Service status Integer Service info status
1 = Service received
2 = Service dropped

Parameters for GSM, UMTS, and LTE |Top|

Name Type Description
LAC Integer Location area code
If the service is not available this is the last known LAC value
when the service was available.
Range: 0 – 65535
MCC Integer Mobile country code
If the service is not available this is the last known MCC value
when the service was available.
Range: 0 – 999
MNC Integer Mobile network code
If the service is not available this is the last known MNC value
when the service was available.
Range: 0 – 999
TMSI String (hex) TMSI
Temporary mobile subscriber identity. See 3GPP TS 124.008
subclause 10.5.1.4 and 3GPP TS 123.003 subclause 2.4.
P-TMSI String (hex) P-TMSI
Packet temporary mobile subscriber identity. See 3GPP TS
124.008 subclause 10.5.1.4 and 3GPP TS 123.003 subclause
2.7.
MME group ID Integer MME group ID
Mobility Management Entity (MME) group identification is used
to differentiate between pools of MMEs. See 3GPP TS 123.003.
MME code Integer MME code
Identifies Mobility Management Entities (MME) within the MME
pool areas. See 3GPP TS 123.003.
M-TMSI String (hex) M-TMSI
M-Temporary Moblie subscriber Identity. See 3GPP TS
123.003.

Parameters for iDEN |Top|

Name Type Description
Domain status Integer Domain status
0 = Radio is in its dispatch domain
1 = Radio is not in its dispatch domain

Roaming information (ROAM)

Event ID ROAM
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD
Record state Always
Description Recorded when roaming state information changes.
Tools Nemo Outdoor,Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
Roaming status Integer Roaming status
1 = Roaming
2 = Not roaming
Data channel request (DCHR)
Event ID DCHR
Cellular systems GSM,UMTS FDD
Record state Data call connection state
Description Indicates the requested data call resources. Recorded when data call is initiated or
reconfigured.
Tools Nemo Outdoor
|Parameters |Parameters for GSM |Parameters for UMTS FDD and UMTS TD-SCDMA |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD

Parameters for GSM |Top|

Name Type Description
Initiator Integer Initiator
1 = Mobile station initiated
2 = Network station initiated
Requested coding Integer Requested channel coding
1 = 9.6
2 = 14.4
Requested data mode Integer Requested CS data mode
0 = Non-transparent
1 = Transparent
Requested #TSL UL Integer Requested number of UL timeslots
Number of CS data timeslots uplink.
Requested #TSL DL Integer Requested number of DL timeslots
Number of CS data timeslots downlink.
Modem type Integer Modem type
0 = Analog
1 = ISDN V.110
2 = ISDN V.120
Compression Integer Data compression
0 = Off
1 = On (manufacturer preferred compression)
2 = V.42bis
3 = V.44

Parameters for UMTS FDD and UMTS TD-SCDMA |Top|

Name Type Description
Initiator Integer Initiator
1 = Mobile station initiated
2 = Network station initiated
Req. CS rate Integer Requested CS bitrate
Requested data mode Integer Requested CS data mode
0 = Non-transparent
1 = Transparent
Modem type Integer Modem type
0 = Analog
1 = ISDN V.110
2 = ISDN V.120
Compression Integer Data compression
0 = Off
1 = On (manufacturer preferred compression)
2 = V.42bis
3 = V.44

Data channel info (DCHI)

Event ID DCHI
Cellular systems GSM
Record state Data call connection state
Description Recorded when data call resources have changed.
Tools Nemo Outdoor
|Parameters |Parameters for GSM |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM

Parameters for GSM |Top|

Name Type Description
Coding Integer Channel coding
1 = 9.6
2 = 14.4
Data mode Integer CS data mode
0 = Non-transparent
1 = Transparent
#CS TSL UL Integer Number of UL timeslots
Number of CS data timeslots uplink.
#CS TSL DL Integer Number of DL timeslots
Number of CS data timeslots downlink.
CS UL TSLs Integer CS data timeslots uplink
Allocated uplink timeslots. The number of timeslot parameters
in the event is indicated by the number of CS data timeslots
uplink parameter. The first timeslot in the event is the main
timeslot.
Range: 0 – 7
CS DL TSLs Integer CS data timeslots downlink
Allocated downlink timeslots. The number of timeslot
parameters in the event is indicated by the number of CS data
timeslots downlink parameter. The first timeslot in the event is
the main timeslot.
Range: 0 – 7
Frequency hopping status (HOP)
Event ID HOP
Cellular systems GSM
Record state Call connection and packet active state
Description Recorded when GSM hopping channel list is modified. If hopping is not used, the single
dedicated channel is recorded. Recorded based on layer3 and RLC/MAC signaling.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM |Parameters for hopping on state |Parameters for hopping off state |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM

Parameters for GSM |Top|

Name Type Description
Hopping Integer Hopping status
1 = On
2 = Off

Parameters for hopping on state |Top|

Name Type Description
HSN Integer HSN
Hopping sequence number. See 3GPP TS 144.018 subclause
10.5.2.5.
MAIO Integer MAIO
Mobile allocation index offset. See 3GPP TS 144.018 subclause
10.5.2.5.
#Hopping Chs Integer Number of hopping channels
Channel(s) Integer Hopping channels

Parameters for hopping off state |Top|

Name Type Description
Channel(s) Integer Hopping channels

Cell information (CELLINFO)

Event ID CELLINFO
Cellular systems UMTS TD-SCDMA
Record state Always
Description The measurement event contains semi-static cell information that is not recorded to the
CELLMEAS measurement event. Recorded when the mobile reports the information.
Tools Nemo Outdoor
|Parameters |Parameters for UMTS TD-SCDMA |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
6 = UMTS TD-SCDMA

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Band Integer Band
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA
Ch Integer Channel number
Cell params Integer Cell parameters ID
ID Range: 0 – 127
#URA IDs Integer Number of ura IDs
URA ID Integer URA identity
Range: 0 – 65535

Neighbor list (NLIST)

Event ID NLIST
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA
Record state Always
Description Recorded when signaling-based neighbor list changes. With UMTS, when the mobile is in
the soft handover state, the neighbor lists of all active set cells are combined and
reported in this measurement event.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM source cell |Parameters for UMTS FDD source cell |Parameters for UMTS TD-SCDMA source cell |Neighbor list
parameters |Parameters for GSM |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |

Parameters |Top|
Name Type Description
#Header Integer Number of header parameters
params
Source Integer Source system
system 1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA

Parameters for GSM source cell |Top|

Name Type Description
Source band Integer Source band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM
Source ch Integer Source channel number
Source BSIC Integer Source BSIC
Range: 0 – 63

Parameters for UMTS FDD source cell |Top|

Name Type Description
Source band Integer Source band
This information is not recorded during soft handover.
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
Source ch Integer Source channel number
This information is not recorded during soft handover.
Source SC Integer Source scrambling code
This information is not recorded during soft handover.
Range: 0 – 511

Parameters for UMTS TD-SCDMA source cell |Top|

Name Type Description
Source band Integer Source band
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA
Source ch Integer Source channel number
Source Integer Source cell parameters id
params ID Range: 0 – 127

Neighbor list parameters |Top|

Name Type Description
#nChs Integer Number of neighbor channels
#Params Integer Number of parameters
Measured Integer Measured system
sys. 1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA

Parameters for GSM |Top|

Name Type Description
ARFCN Integer Neighbor channel number (GSM)
BSIC Integer Neighbor BSIC
Range: 0 – 63
Band Integer Band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
Cell index Integer Cell index (GSM)

Parameters for UMTS FDD |Top|

Name Type Description
UARFCN Integer Neighbor channel number (UMTS)
SC Integer Neighbor scrambling code
Range: 0 – 511
Band Integer Band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
Cell index Integer Cell index (UMTS)

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
UARFCN Integer Neighbor channel number
Params ID Integer Neighbor cell parameters ID
Range: 0 – 127
Band Integer Band
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA
Cell index Integer Cell index

Possible missing neighbor (NMISS)

Event ID NMISS
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,cdmaOne,CDMA 1x,EVDO
Record state Always
Description Recorded when there are possible missing neighbors. Missing neighbor detection is
based on neighbor list and scanning results. Possible missing neighbor is a cell which is
detected (measured) by the scanner but is not included in the neighbor list of the mobile
at a given time.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM source cell |Parameters for UMTS FDD source cell |Parameters for cdmaOne, CDMA 1x, and EVDO source cells
|Missing neighbor parameters |Parameters for GSM |Parameters for UMTS FDD |Parameters for cdmaOne and CDMA 1x |Parameters for EVDO |

Parameters |Top|
Name Type Description
#Header Integer Number of header parameters
params
Source Integer Source system
system 1 = GSM
5 = UMTS FDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO

Parameters for GSM source cell |Top|

Parameters for UMTS FDD source cell |Top|

Parameters for cdmaOne, CDMA 1x, and EVDO source cells |Top|
Name Type Description
Source band Integer Source band
This information is not recorded during soft handover.
100000 = cdmaOne 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
100001 = cdmaOne 1900 band 1
North American PCS 1900 MHz band.
100002 = cdmaOne 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
100003 = cdmaOne 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
100004 = cdmaOne 1800 Korean band 4
Korean PCS 1800 MHz band.
100005 = cdmaOne 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
100006 = cdmaOne 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
100007 = cdmaOne 700 band 7
North American cellular 700 MHz band.
100008 = cdmaOne 1800 band 8
1800 MHz band.
100009 = cdmaOne 900 band 9
900 MHz band.
100010 = cdmaOne 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
100011 = cdmaOne 400 PAMR band 11
European PAMR 400 MHz band.
100012 = cdmaOne 800 PAMR band 12
European PAMR 800 MHz band.
100013 = cdmaOne 2500 band 13
2.5 GHz IMT-2000 extension.
100014 = cdmaOne 1900 band 14
US PCS 1.9 GHz.
100015 = cdmaOne 2100 AWS band 15
100016 = cdmaOne 2500 band 16
US 2.5 GHz.
100018 = cdmaOne 700 public safety band 18
100019 = cdmaOne 700 lower band 19
100020 = cdmaOne 1500 L-band band 20
100021 = cdmaOne 2000 S-band band 21
109999 = cdmaOne
110000 = CDMA 1x 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
110001 = CDMA 1x 1900 band 1
North American PCS 1900 MHz band.
110002 = CDMA 1x 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
110003 = CDMA 1x 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
110004 = CDMA 1x 1800 Korean band 4
Korean PCS 1800 MHz band.
110005 = CDMA 1x 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
110006 = CDMA 1x 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
110007 = CDMA 1x 700 band 7
North American cellular 700 MHz band.
110008 = CDMA 1x 1800 band 8
1800 MHz band.
110009 = CDMA 1x 900 band 9
900 MHz band.
110010 = CDMA 1x 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
110011 = CDMA 1x 400 PAMR band 11
European PAMR 400 MHz band.
110012 = CDMA 1x 800 PAMR band 12
European PAMR 800 MHz band.
110013 = CDMA 1x 2500 band 13
2.5 GHz IMT-2000 extension.
110014 = CDMA 1x 1900 band 14
US PCS 1.9 GHz.
110015 = CDMA 1x 2100 AWS band 15
110016 = CDMA 1x 2500 band 16
US 2.5 GHz.
110018 = CDMA 1x 700 public safety band 18
110019 = CDMA 1x 700 lower band 19
110020 = CDMA 1x 1500 L-band band 20
110021 = CDMA 1x 2000 S-band band 21
119999 = CDMA 1x
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
Source ch Integer Source channel number
This information is not recorded during soft handover.
Source PN Integer Source pilot number
This information is not recorded during soft handover.
Range: 0 – 511

Missing neighbor parameters |Top|

Name Type Description
#Miss. Integer Number of missing neighbors
neighbors Number of detected possible missing neighbor cells.
#Params Integer Number of parameters
Measured Integer Measured system
sys. 1 = GSM
5 = UMTS FDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO

Parameters for GSM |Top|

Name Type Description
ARFCN Integer Missing neighbor channel number
BSIC Integer Missing neighbor BSIC
Range: 0 – 63
RxLev Float Missing neighbor RX level
Range: −120 – −10
Unit: dBm
Band Integer Band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM

Parameters for UMTS FDD |Top|

Name Type Description
ARFCN Integer Missing neighbor channel number
SC Integer Missing neighbor scrambling code
Range: 0 – 511
Ec/N0 Float Missing neighbor Ec/N0
The received energy per chip divided by the power density of the band
measured on the primary CPICH. See 3GPP TS 125.215 subclause
5.1.5.
Range: −30 – 0
Unit: dB
RSCP Float Missing neighbor RSCP
The received signal code power of a single code measured on the
primary CPICH. See 3GPP TS 125.215 subclause 5.1.1.
Range: −150 – −20
Unit: dBm
Diff. to str. Float Missing neighbor difference to strongest pilot
Power difference from strongest cell in active or monitored set to
detected missing neighbor cell.
Range: −26 – 26
Unit: dB
Band Integer Band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
Ch Integer Missing neighbor channel number
PN Integer Missing neighbor pilot number
Range: 0 – 511
Ec/I0 Float Missing neighbor Ec/I0
Range: −50 – 0
Unit: dB
RSCP Float Missing neighbor RSCP
The received signal code power of a single code.
Range: −150 – −20
Unit: dBm
Diff. to str. Float Missing neighbor difference to strongest pilot
Power difference from strongest cell in active, candidate, or neighbor set
to detected missing neighbor cell.
Range: −26 – 26
Unit: dB
Band Integer Band
100000 = cdmaOne 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
100001 = cdmaOne 1900 band 1
North American PCS 1900 MHz band.
100002 = cdmaOne 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
100003 = cdmaOne 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
100004 = cdmaOne 1800 Korean band 4
Korean PCS 1800 MHz band.
100005 = cdmaOne 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
100006 = cdmaOne 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
100007 = cdmaOne 700 band 7
North American cellular 700 MHz band.
100008 = cdmaOne 1800 band 8
1800 MHz band.
100009 = cdmaOne 900 band 9
900 MHz band.
100010 = cdmaOne 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
100011 = cdmaOne 400 PAMR band 11
European PAMR 400 MHz band.
100012 = cdmaOne 800 PAMR band 12
European PAMR 800 MHz band.
100013 = cdmaOne 2500 band 13
2.5 GHz IMT-2000 extension.
100014 = cdmaOne 1900 band 14
US PCS 1.9 GHz.
100015 = cdmaOne 2100 AWS band 15
100016 = cdmaOne 2500 band 16
US 2.5 GHz.
100018 = cdmaOne 700 public safety band 18
100019 = cdmaOne 700 lower band 19
100020 = cdmaOne 1500 L-band band 20
100021 = cdmaOne 2000 S-band band 21
109999 = cdmaOne
110000 = CDMA 1x 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
110001 = CDMA 1x 1900 band 1
North American PCS 1900 MHz band.
110002 = CDMA 1x 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
110003 = CDMA 1x 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
110004 = CDMA 1x 1800 Korean band 4
Korean PCS 1800 MHz band.
110005 = CDMA 1x 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
110006 = CDMA 1x 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
110007 = CDMA 1x 700 band 7
North American cellular 700 MHz band.
110008 = CDMA 1x 1800 band 8
1800 MHz band.
110009 = CDMA 1x 900 band 9
900 MHz band.
110010 = CDMA 1x 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
110011 = CDMA 1x 400 PAMR band 11
European PAMR 400 MHz band.
110012 = CDMA 1x 800 PAMR band 12
European PAMR 800 MHz band.
110013 = CDMA 1x 2500 band 13
2.5 GHz IMT-2000 extension.
110014 = CDMA 1x 1900 band 14
US PCS 1.9 GHz.
110015 = CDMA 1x 2100 AWS band 15
110016 = CDMA 1x 2500 band 16
US 2.5 GHz.
110018 = CDMA 1x 700 public safety band 18
110019 = CDMA 1x 700 lower band 19
110020 = CDMA 1x 1500 L-band band 20
110021 = CDMA 1x 2000 S-band band 21
119999 = CDMA 1x

Parameters for EVDO |Top|

Automatic neighbor relation information (ANRI)

Event ID ANRI
Cellular systems LTE FDD,LTE TDD
Record state Always
Description Recorded when the CGI is configured to measure or reported by the mobile.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for CGI measurement configuration and report |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
ANR type Integer ANR type
1 = CGI measurement configuration
2 = CGI measurement report
#Params/ANR Integer Number of ANR type parameters
type

Parameters for CGI measurement configuration and report |Top|

Name Type Description
Band Integer Band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA
70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
80033 = LTE TDD 1900-1920 band 33
80034 = LTE TDD 2010-2025 band 34
80035 = LTE TDD 1850-1910 band 35
80036 = LTE TDD 1930-1990 band 36
80037 = LTE TDD 1910-1930 band 37
80038 = LTE TDD 2570-2620 band 38
80039 = LTE TDD 1880-1920 band 39
80040 = LTE TDD 2300-2400 band 40
80041 = LTE TDD 2496-2690 band 41
80042 = LTE TDD 3400-3600 band 42
80043 = LTE TDD 3600-3800 band 43
80044 = LTE TDD 703-803 band 44
80045 = LTE TDD 1447-1467 band 45
80046 = LTE TDD 5154-5925 band 46
80047 = LTE TDD 5855-5925 band 47
80048 = LTE TDD 3550-3700 band 48
80061 = LTE TDD 1447-1467 band 61
This is a non-standard LTE TDD band.
80062 = LTE TDD 1785-1805 band 62
This is a non-standard LTE TDD band.
80087 = LTE TDD 1447-1467 band 87
This is a non-standard LTE TDD band.
80088 = LTE TDD 1785-1805 band 88
This is a non-standard LTE TDD band.
89999 = LTE TDD
Ch Integer Channel number
Phys. cell ID Integer Physical cell ID
With GSM this is the BSIC with range from 0 to 63. With UMTS FDD
this is the scrambling code with range from 0 to 511. With UMTS TD-
SCDMA this is the cell parameters ID with range from 0 to 127. With
LTE this is the physical cell ID with range from 0 to 503.
Cell ID Integer Cell identification
Range: 0 – 268435455
LAC/TAC Integer Location or tracking area code
With GSM and UMTS this is the LAC value. With LTE this is the TAC
value.
Range: 0 – 65535
MCC Integer Mobile country code
See ITU-T recommendation E.212.
Range: 0 – 999
MNC Integer Mobile network code
Range: 0 – 999

Cell pollution (CELLPOLLUTION)

Event ID CELLPOLLUTION
Cellular systems UMTS FDD,cdmaOne,CDMA 1x,EVDO
Record state Always
Description Recorded when possible cell pollution is detected by comparing scanning results to the
user defined threshold.
Tools Nemo Outdoor
|Parameters |Parameters for UMTS FDD |Parameters for cdmaOne,CDMA 1x, and EVDO |Parameters for UMTS FDD |Parameters for cdmaOne, CDMA
1x, and EVDO |

Parameters |Top|
Name Type Description
#Header Integer Number of header parameters
params
Source Integer Source system
system 5 = UMTS FDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO
Parameters for UMTS FDD |Top|
Name Type Description
Source band Integer Source band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
Source ch Integer Source channel number

Parameters for cdmaOne,CDMA 1x, and EVDO |Top|

Name Type Description
Source band Integer Source band
100000 = cdmaOne 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
100001 = cdmaOne 1900 band 1
North American PCS 1900 MHz band.
100002 = cdmaOne 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
100003 = cdmaOne 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
100004 = cdmaOne 1800 Korean band 4
Korean PCS 1800 MHz band.
100005 = cdmaOne 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
100006 = cdmaOne 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
100007 = cdmaOne 700 band 7
North American cellular 700 MHz band.
100008 = cdmaOne 1800 band 8
1800 MHz band.
100009 = cdmaOne 900 band 9
900 MHz band.
100010 = cdmaOne 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
100011 = cdmaOne 400 PAMR band 11
European PAMR 400 MHz band.
100012 = cdmaOne 800 PAMR band 12
European PAMR 800 MHz band.
100013 = cdmaOne 2500 band 13
2.5 GHz IMT-2000 extension.
100014 = cdmaOne 1900 band 14
US PCS 1.9 GHz.
100015 = cdmaOne 2100 AWS band 15
100016 = cdmaOne 2500 band 16
US 2.5 GHz.
100018 = cdmaOne 700 public safety band 18
100019 = cdmaOne 700 lower band 19
100020 = cdmaOne 1500 L-band band 20
100021 = cdmaOne 2000 S-band band 21
109999 = cdmaOne
110000 = CDMA 1x 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
110001 = CDMA 1x 1900 band 1
North American PCS 1900 MHz band.
110002 = CDMA 1x 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
110003 = CDMA 1x 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
110004 = CDMA 1x 1800 Korean band 4
Korean PCS 1800 MHz band.
110005 = CDMA 1x 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
110006 = CDMA 1x 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
110007 = CDMA 1x 700 band 7
North American cellular 700 MHz band.
110008 = CDMA 1x 1800 band 8
1800 MHz band.
110009 = CDMA 1x 900 band 9
900 MHz band.
110010 = CDMA 1x 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
110011 = CDMA 1x 400 PAMR band 11
European PAMR 400 MHz band.
110012 = CDMA 1x 800 PAMR band 12
European PAMR 800 MHz band.
110013 = CDMA 1x 2500 band 13
2.5 GHz IMT-2000 extension.
110014 = CDMA 1x 1900 band 14
US PCS 1.9 GHz.
110015 = CDMA 1x 2100 AWS band 15
110016 = CDMA 1x 2500 band 16
US 2.5 GHz.
110018 = CDMA 1x 700 public safety band 18
110019 = CDMA 1x 700 lower band 19
110020 = CDMA 1x 1500 L-band band 20
110021 = CDMA 1x 2000 S-band band 21
119999 = CDMA 1x
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
Source ch Integer Source channel number

Parameters for UMTS FDD |Top|

Name Type Description
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
SC Integer Pilot pollution scrambling code
Range: 0 – 511
Ec/N0 Float Pilot pollution Ec/N0
The received energy per chip divided by the power density of the band
measured on the primary CPICH. See 3GPP TS 125.215 subclause
5.1.5.
Range: −30 – 0
Unit: dB
RSCP Float Pilot pollution RSCP
The received signal code power of single code measured on the primary
CPICH. See 3GPP TS 125.215 subclause 5.1.1.
Range: −150 – −20
Unit: dBm

Parameters for cdmaOne, CDMA 1x, and EVDO |Top|

Name Type Description
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
PN Integer Pilot pollution pilot number
Range: 0 – 511
Ec/I0 Float Pilot pollution Ec/I0
Range: −50 – 0
Unit: dB
RSCP Float Pilot pollution RSCP
The received signal code power of single code.
Unit: dBm

Interference analysis (IANALYSIS)

Event ID IANALYSIS
Cellular systems GSM
Record state Always
Description Recorded when interference analysis is enabled in Nemo Outdoor. The logged
information is based on the channels used by the mobile and to the scanning results
received from the scanner.
Tools Nemo Outdoor
|Parameters |Parameters for GSM |Parameters for GSM |

Parameters |Top|
Name Type Description
#Header Integer Number of header parameters
params
Source Integer Source system
system 1 = GSM

Parameters for GSM |Top|

Name Type Description
Band Integer Interference analysis band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM

Parameters for GSM |Top|

Name Type Description
#Chs Integer Number of channels
#Params/Ch Integer Number of parameters per channel
Type Integer Interference analysis channel type
1 = Serving channel
This is the BCCH channel during the idle state and the TCH
channel(s) during the active state.
2 = Co-channel
Contains co-channel interefer. This is only recorded when scanner
decodes different BSIC than the mobile. This indicates that there are
two interfering cells using the same channel.
3 = Adj-channel
This is the channel adjacent to the serving channel. Adjacent
channel can cause interference to the serving channel.
Ch Integer Interference analysis channel number
BSIC Integer Interference analysis BSIC
Range: 0 – 63
RxLev Float Interference analysis RX level
Range: −120 – −10
Unit: dBm

Cell load (CELLLOAD)

Event ID CELLLOAD
Cellular systems EVDO
Record state Always
Description Recorded when cell load information is received from the network.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EVDO |
Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO

Parameters for EVDO |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Cells Integer Number of cells
#Params/cell Integer Number of parameters per cell
Band Integer Band
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO
Ch Integer Channel number
PN Integer Pilot number
Range: 0 – 511
Active users Integer Active users
Service configuration (SERVCONF)
Event ID SERVCONF
Cellular systems cdmaOne,CDMA 1x
Record state Call connection and packet active state
Description Recorded when configuration changes.
Tools Nemo Outdoor
|Parameters |Parameters for cdmaOne and CDMA 1x |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
10 = cdmaOne
11 = CDMA 1x

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
SO Integer Service option
See more 3GPP2 C.S0014.
FT type Integer Forward traffic type
0 = Service option connection does not use forward traffic
channel traffic.
1 = Service option connection uses primary traffic on the
forward traffic channel.
2 = Service option connection uses secondary traffic on the
forward traffic channel.
RT type Integer Reverse traffic type
0 = Service option connection does not use reverse traffic
channel traffic
1 = Service option connection uses primary traffic on the
reverse traffic channel
2 = Service option connection uses secondary traffic on the
reverse traffic channel
Encryption mode Integer Encryption mode
0 = Off
1 = On
F-FCH MUX Integer F-FCH and F-DCCH multiplex option
R-FCH MUX Integer R-FCH and R-DCCH multiplex option
F-FCH bit/frame Integer F-FCH bits per frame
R-FCH bit/frame Integer R-FCH bits per frame
F-FCH RC Integer F-FCH radio configuration
Range: 1 – 10
R-FCH RC Integer R-FCH radio configuration
Range: 1 – 10
F-DCCH RC Integer F-DCCH radio configuration
Range: 1 – 10
R-DCCH RC Integer R-DCCH radio configuration
Range: 1 – 10
F-SCH MUX Integer F-SCH multiplex option
F-SCH RC Integer F-SCH radio configuration
Range: 1 – 10
F-SCH coding Integer F-SCH coding
0 = Convolutional
1 = Turbo
F-SCH frame size Integer F-SCH frame size
0 = 40ms frames
1 = 80ms frames
2 = 40ms and 80ms frames
F-SCH frame offset Integer F-SCH frame offset
F-SCH max rate Integer F-SCH maximum rate
1 = 1X
2 = 2X
4 = 4X
8 = 8X
16 = 16X
32 = 32X
R-SCH MUX Integer R-SCH multiplex option
R-SCH RC Integer R-SCH radio configuration
R-SCH coding Integer R-SCH coding
0 = Convolutional
1 = Turbo
R-SCH frame size Integer R-SCH frame size
0 = 40ms frames
1 = 80ms frames
2 = 40ms and 80ms frames
R-SCH frame offset Integer R-SCH frame offset
R-SCH max rate Integer R-SCH maximum rate
1 = 1X
2 = 2X
4 = 4X
8 = 8X
16 = 16X
32 = 32X

Random access channel information (RACHI)

Event ID RACHI
Cellular systems UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,cdmaOne,CDMA 1x,EVDO
Record state Always
Description Recorded after random access to the network has been attempted. With UMTS FDD, a
RACHI measurement event is recorded for each random access procedure.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |Parameters for LTE |Parameters for cdmaOne and CDMA 1x |Parameters
for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO

Parameters for UMTS FDD |Top|

Name Type Description
Init TX power Float RACH initial TX power
TX power Initial transmission power.
Range: −99 – 99
Unit: dBm
Preamble step Float RACH preamble step
Preamble step size.
Range: 1 – 8
Unit: dB
Preamble count Integer RACH preamble count
Transmitted preamble transmission count.
Range: 0 – 65
RACH TX power Float RACH TX power
Total transmission power used in RACH message part (control
+ data).
Range: −99 – 99
Unit: dBm
Max preamble Integer RACH maximum preamble count
This is the same as 'Preamble Retrans Max' parameter
signaled by network in RRC layer and it defines the maximum
number of preamble attempts.
Range: 0 – 64
UL interf. Float UL interference
Uplink Interference is measured by the NodeB and broadcasted
by the NodeB in SIB7. The UE uses this to set the initial TX
power for the first PRACH or NPRACH preamble. The Uplink
Interference value in SIB7 uses 1 dB steps. More information
can be found in 3GPP TS 25.133 and 25.215 (information about
SIB7 in 3GPP TS 25.331), where the Uplink Interference is
referred to as "Received total wide band power".
Range: −110 – −70
Unit: dBm
AICH status Integer RACH AICH status
0 = No ACK
1 = NACK
2 = ACK
3 = Abort
Data gain Integer RACH data channel gain
Range: 0 – 15
Ctrl gain Integer RACH control channel gain
Range: 0 – 15
Power offset Float RACH power offset
This is the same as Pp-m parameter in RRC specification.
Power offset between the last transmitted preamble and the
control part of the message.
Range: −5 – 10
Message length Integer RACH message length
Range: 5 – 20
Unit: ms
Preamble cycles Integer RACH max preamble cycles
Maximum number of preamble cycles.
Range: 1 – 32

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
SYNC UL Init. pwr. Float RACH SYNC UL initial TX power
Initial transmission power.
Range: −99 – 99
Unit: dBm
SYNC UL step Float RACH SYNC UL step
Range: 0 – 3
Unit: dB
SYNC UL count Integer RACH SYNC UL count
Transmitted preamble transmission count.
Range: 1 – 8
Max SYNC UL count Integer RACH SYNC UL maximum count
Valid values are 1, 2, 4, and 8. This is the same as _Max
SYNC_UL Transmissions_ parameter signaled by network in
RRC layer and it defines the maximum number of preamble
attempts.
Range: 1 – 8
SYNC UL power Float RACH SYNC UL power
Power of last SYNC UL.
Range: −99 – 99
Unit: dBm
RACH TX power Float RACH TX power
Total transmission power used in RACH message part (control
+ data).
Range: −99 – 99
Unit: dBm
PCCPCH pathloss Float RACH PCCPCH pathloss
Range: 46 – 158
Unit: dB
RACH status Integer RACH FPACH status
0 = No ACK
1 = NACK
2 = ACK
Desired UpPCH RX power Float RACH desired UpPCH RX power
Range: −120 – −58
Unit: dBm
Desired UpRACH RX Float RACH desired UpRACH RX power
power Range: −120 – −58
Unit: dBm
Message length Integer RACH message length
Range: 5 – 20
Unit: ms
Preamble cycles Integer RACH max preamble cycles
Maximum number of preamble cycles.
Range: 1 – 32

Parameters for LTE |Top|

Name Type Description
RACH type Integer RACH type
More information about RACH procedure in LTE see 3GPP TS
36.213 subclause 6 and 3GPP TS 36.321 subclause 5.1.
1 = Contention based
2 = Non-contention based
RACH reason Integer RACH reason
Reason for the RACH procedure.
1 = Channel request
2 = Radio link timeout
3 = UL data
4 = No PUCCH
Recorded when scheduling request is not possible because
there are no PUCCH resources available. See 3GPP TS
136.321 subclause 5.4.4.
5 = Max SR
Recorded when maximum number of scheduling requests
has been sent to the network without uplink resources. See
3GPP TS 136.321 subclause 5.4.4.
6 = Handover
RACH procedure after handover.
7 = DL data
This type is used when UE is not synchronized and
downlink data is received.
RACH result Integer RACH result
1 = Succeeded
2 = Aborted
3 = Failed
Max preambles Integer RACH maximum preamble count
This is the same as preambleTransMax. See 3GPP TS 136.133
subclause 6.3.2 and 136.321 subclause 5.1.
Range: 3 – 200
Preambles Integer RACH preamble count
Defines the number of preambles that were sent during the
RACH procedure. This is the same as
PREAMBLE_TRANSMISSION_COUNTER after end of the
RACH procedure.
Preambles failures Integer RACH preamble responses with backoff time
Preambles successes Integer RACH preamble responses with PUSCH resource
CR failures Integer RACH contention resolution failures
This is the total number of contention resolution failures
including timer expiries and msg4 decoding failures. Substract
RACH contention resolution decoding failures from this
parameter to get the number of timer expiries.
Pathloss Float RACH pathloss
An estimate of the radio condition for the RACH procedure.
Pathloss is used for initial TX power. See 3GPP TS 36.213
subclause 6.1.
Range: 0 – 170
Unit: dB
Init TX power Float RACH preamble initial TX power
TX power used for the first preamble. See 3GPP TS 36.321
subclause 5.1.3.
Range: −50 – 40
Unit: dBm
Preamble step Float RACH preamble step
This parameter is the same as power ramping step. See 3GPP
TS 136.321 subclause 5.1.
Range: 0 – 6
Unit: dB
PUSCH power Float RACH PUSCH power
For successful RACH procedures this contains the TX power
used for message sending in PUSCH.
Range: −50 – 40
Unit: dBm
RACH preamble index Integer RACH preamble index
The preamble index of the last successfully transmitted
preamble. This is only valid for successful RACH procedures.
This parameter is same as preamble sequence or random
access preamble ID (RAPID). See 3GPP TS 136.321
subclause 5.
Range: 0 – 63
Access delay Integer RACH access delay
Time from initial MSG1 to MSG2 for non-contention based
RACH procedures and time from initial MSG1 to MSG4 for
contention based RACH procedures. Valid only for succesful
RACH procedures.
Minimum value: 0
Unit: ms
RA-RNTI Integer RACH RA-RNTI
RNTI that is used on the PDCCH or NPDCCH when random
access responses are transmitted. See 3GPP TS 136.321
subclause 5.1.
Range: 0 – 65535
Response window size Integer RACH response window size
This is same as ra-ResponseWindowSize. Defines how long
random access response (MSG2) is monitored after preamble
is transmitted. When multiple CE levels were used during the
RACH procedure this is the last used response window size.
See 3GPP TS 136.321 subclause 5.1.
TA Integer RACH timing advance
Timing advance command received in random access response
(MSG2). See 3GPP TS 136.321 subclause 5.2.
Range: 0 – 1282
CR MSG4 decoding Integer RACH contention resolution msg4 decoding failures
failures
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell
index.
0 = PCell
Primary serving cell.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4
CE Integer RACH CE level
The last used coverage enhancement level. CE level defines
the parameter set that is used for preamble sending. See 3GPP
TS 136.321 subclause 5.1.4.
Range: 0 – 3
RACH reps Integer RACH preamble repetitions
Number of times the preamble is repeated to improve coverage.
This is the same as numRepetitionPerPreambleAttempt. When
multiple CE levels were used during the RACH procedure this is
the last used repetitions. See 3GPP TS 136.321 subclause
5.1.3 and 3GPP TS 136.213 subclause 16.3.
Range: 1 – 128
Initial CE Integer RACH initial CE level
The initial coverage enhancement level. CE level defines the
parameter set that is used for preamble sending. See 3GPP TS
136.321 subclause 5.1.4.
Range: 0 – 3

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
NOM_PWR Integer Access nominal transmit power offset
Nominal transmit power offset is a correction factor used by
mobile stations in open-loop power estimation.
INIT_PWR Integer INIT_PWR (access probe initial power)
Initial power is a correction factor used by mobile stations in
open-loop power estimation for initial transmission on an
Access Channel.
PWR_STEP Integer PWR_STEP (access probe power step)
Mobile stations increase the transmission power in an access
probe sequence.
NUM_STEP Integer NUM_STEP (access probe number of steps)
Access probes consist of a preamble and a message for
channel access. Access probes are sent in a sequence of one
or more access probes. Transmitted power is incremented in
each probe. Note that the parameter value is one less than the
actual maximum number of steps.
TX level Float Probe TX level
Probe count Integer Probe count
Probe sequence count Integer Probe sequence count
Access probe sequence count.
Access ch number Integer Access channel number
Random delay Integer PN randomization delay
Access RX level Float RX level
Unit: dB
Psist Integer Number of persistence tests performed
Persistence is a probability measurement done by the mobile
station to determine if it should transmit on a given access
channel.
Range: 0 – 255
SEQ backoff Integer Sequence backoff
Time between access probe sequences.
Range: 0 – 255
Probe backoff Integer Probe backoff
Time between access probes.
Range: 0 – 255
Inter. corr. Integer Inteference correction
Interference correction is calculated from the Ec/I0 of the
strongest active set pilot and from the interference correction
threshold.
Range: 0 – 255
Access TX adj. Float Transmit gain adjust

Parameters for EVDO |Top|

Name Type Description
Max #Probes Integer Number of probes per probe sequence
Max #Probe SEQs Integer Maximum number of probe sequences
Result Integer Probe sequence result
0 = ACAck not received
1 = ACAck received
2 = TCA message received
3 = Probe interrupted
#Probes Integer Number of probes sent in last probe sequence
#Probe SEQs Integer Number of probe sequences sent for this access attempt
Duration Integer Time to complete the attempt
Unit: slot
Access PN Integer Access PN
PN of the sector that sends the ACAck or the TCA message.
Access sector ID Integer Access sector ID
Sector ID on which the access probe was sent.
Range: 0 – 16777215
Access color code Integer Access color code
Color code on which the access probe was sent.
Range: 0 – 255

Vocoder status (VOCS)

Event ID VOCS
Cellular systems cdmaOne,CDMA 1x
Record state Call connection state
Description Recorded when vocoder rate changes.
Tools Nemo Outdoor, Nemo Handy
|Parameters |
Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
10 = cdmaOne
11 = CDMA 1x
Voc. rate For. Integer Vocoder rate forward
0 = Full
1 = Half
2 = Quarter
3 = Eighth
4 = Blank
5 = Erasure
6 = Invalid data
Voc. rate Rev. Integer Vocoder rate reverse
0 = Full
1 = Half
2 = Quarter
3 = Eighth
4 = Blank
5 = Erasure
6 = Invalid data
7 = Quarter (non-critical)
SO Integer Service option
See more 3GPP2 C.S0014.

Physical channel information (PHCHI)

Event ID PHCHI
Cellular systems UMTS TD-SCDMA,cdmaOne,CDMA 1x
Record state Always
Description Recorded when the information is received from the device.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS TD-SCDMA |Parameters for cdmaOne and CDMA 1x |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
6 = UMTS TD-SCDMA
10 = cdmaOne
11 = CDMA 1x

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
#Header Integer Number of header parameters
params
DPCH ch Integer DPCH channel number
UL repetition Integer TD-SCDMA uplink repetition length
length
UL repetition Integer TD-SCDMA uplink repetition period
period Valid values are 1, 2, 4, 8, 16, 32, and 64.
Range: 1 – 64
DL repetition Integer TD-SCDMA downlink repetition length
length
DL repetition Integer TD-SCDMA downlink repetition period
period Valid values are 1, 2, 4, 8, 16, 32, and 64.
Range: 1 – 64
#Physical Integer Number of physical channels
channels
#Params/Ch Integer Number of parameters per physical channel
Ph. ch type Integer TD-SCDMA physical channel type
1 = DPCH
2 = HS-SCCH
3 = HS-SICH
4 = HS-PDSCH
Direction Integer Physical channel direction
1 = Uplink
2 = Downlink
3 = Uplink and downlink
TSL Integer Timeslot
Range: 0 – 6
SF Integer TD-SCDMA spreading factor
1 = SF 1
2 = SF 2
4 = SF 4
8 = SF 8
16 = SF 16
Ch. code Integer TD-SCDMA channelisation code
Range: 0 – 15
Midamble Integer Midamble configuration
config Valid values are 2, 4, 6, 8, 10, 12, 14, and 16.
Range: 2 – 16
Midamble Integer Midamble allocation mode and shift
alloc. -2 = Default
-1 = Common
0=0
1=1
2=2
3=3
4=4
5=5
6=6
7=7
8=8
9=9
10 = 10
11 = 11
12 = 12
13 = 13
14 = 14
15 = 15

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
#Header Integer Number of header parameters
params
#Physical Integer Number of physical channels
channels
#Params/Ch Integer Number of parameters per physical channel
Ph. type Integer Physical channel type
0 = SCH0
1 = SCH1
2 = FCH
3 = DCCH
Direction Integer Physical channel direction
1 = Uplink
2 = Downlink
3 = Uplink and downlink
PN Integer Physical channel pilot number
Range: 0 – 511
Walsh code Integer Physical channel walsh code
Range: 0 – 127
Ph. rate Integer Physical channel rate
0 = 1x
1 = 2x
2 = 4x
3 = 8x
4 = 16x
QOF mask id Integer Quasiorthogonal function index
Range: 0 – 3

Quick paging channel information (QPCHI)

Event ID QPCHI
Cellular systems CDMA 1x
Record state Idle state
Description Recorded when values are received from the mobile in slotted mode.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for CDMA 1x |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
11 = CDMA 1x

Parameters for CDMA 1x |Top|

Name Type Description
#Header params Integer Number of header parameters
Rate Integer QPCH paging indicator rate
Data rate. Currently valid values are 4800 and 9600.
Range: 4800 – 9600
Unit: bit/s
Slot number Integer Paging slot number
Range: 0 – 2047
Transfer reason Integer Transfer reason
0 = No XFER
1 = Slot imminent
2 = MC not valid
3 = Channel estimation bad signal
4 = XFER broadcast data
5 = BP and PG
6 = BP not supported
7 = RWUP
8 = PI1 PI2 on
9 = BI1 BI2 on
10 = Next slot not supported
11 = CCI handoff
12 = CCI on
13 = Disable BIO switch
#Configurations Integer Number of configurations
#Params/configuration Integer Number of parameters per configuration
PN Integer Pilot number
Range: 0 – 511
PI walsh Integer Walsh code for paging indicators
Range: 0 – 128
PI power offset Float Paging indicator power offset
Power difference between paging indicator and pilot channel.
Unit: dB
BI supported Integer Broadcast indicator support
0 = Not supported
1 = Supported
BI walsh Integer Broadcast indicator walsh code
Range: 0 – 128
BI pwr lvl Float Broadcast indicator power level
Unit: dB
CCI supported Integer Configuration change indicator support
0 = Not supported
1 = Supported
CCI walsh Integer Configuration change walsh code
Range: 0 – 128
CCI pwr lvl Float Configuration change power level
Unit: dB
#Indicators Integer Number of indicators
#Params/indicator Integer Number of parameters per indicator
Status Integer Indicator demodulation result
0 = Not applicable
1 = Not detected
2 = Detected
3 = Erasure
4 = Missed
Type Integer Indicator type
0 = Paging indicator #1
1 = Paging indicator #2
2 = Configuration change indicator #1
3 = Configuration change indicator #2
4 = Broadcast indicator #1
5 = Broadcast indicator #2
THB Integer THB threshold for paging indicator
Range: 0 – 255
THI Integer THI threshold for paging indicator
Range: 0 – 255
Position Integer Indicator position
Range: 0 – 768
Ind. I amp. Integer Indicator amplitude on I channel
Ind. Q amp. Integer Indicator amplitude on Q channel
Com. pilot energy Float Common pilot energy
Range: −35 – 3
Unit: dB
Div. pilot energy Float Diversity pilot energy
Range: −35 – 3
Unit: dB
FCH packets (FCHPACKETS)
Event ID FCHPACKETS
Cellular systems EVDO
Record state Always
Description Recorded when information is received from the mobile.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO

Parameters for EVDO |Top|

Name Type Description
CC38400 Good Integer CC38400 Good
Counter for 38.4 k control channel packets with good CRC.
CC38400 Bad Integer CC38400 Bad
Counter for 38.4 k control channel packets with bad CRC.
CC76800 Good Integer CC76800 Good
Counter for 76.8 k control channel packets with good CRC.
CC76800 Bad Integer CC76800 Bad
Counter for 76.8 k control channel packets with bad CRC.
TC38400 Good Integer TC38400 Good
Counter for 38.4 k traffic channel packets with good CRC.
TC38400 Bad Integer TC38400 Bad
Counter for 38.4 k traffic channel packets with bad CRC.
TC76800 Good Integer TC76800 Good
Counter for 76.8 k traffic channel packets with good CRC.
TC76800 Bad Integer TC76800 Bad
Counter for 76.8 k traffic channel packets with bad CRC.
TC153600 Good Integer TC153600 Good
Counter for 156.6 k traffic channel packets with good CRC.
TC153600 Bad Integer TC153600 Bad
Counter for 156.6 k traffic channel packets with bad CRC.
TC307200Short Good Integer TC307200Short Good
Counter for 302.2 (short) traffic channel packets with good
CRC.
TC307200Short Bad Integer TC307200Short Bad
Counter for 302.2 (short) traffic channel packets with bad CRC.
TC307200Long Good Integer TC307200Long Good
Counter for 307.2 (long) traffic channel packets with good CRC.
TC307200Long Bad Integer TC307200Long Bad
Counter for 307.2 (long) traffic channel packets with bad CRC.
TC614400Short Good Integer TC614400Short Good
Counter for 614.4 k (short) traffic channel packets with good
CRC.
TC614400Short Bad Integer TC614400Short Bad
Counter for 614.4 k (short) traffic channel packets with bad
CRC.
TC614400Long Good Integer TC614400Long Good
Counter for 614.4 k (long) traffic channel packets with good
CRC.
TC614400Long Bad Integer TC614400Long Bad
Counter for 614.4 k (long) packets decoded in 2 slots.
TC921600 Good Integer TC921600 Good
Counter for 921.6 k traffic channel packets with good CRC.
TC921600 Bad Integer TC921600 Bad
Counter for 921.6 k traffic channel packets decoded with bad
CRC.
TC1228800Short Good Integer TC1228800Short Good
Counter for 1228.8 k (short) traffic channel packets with good
CRC.
TC1228800Short Bad Integer TC1228800Short Bad
Counter for 1228.8 k (short) traffic channel packets with bad.
TC1228800Long Good Integer TC1228800Long Good
Counter for 1228.8 (long) traffic channel packets with good
CRC.
TC1228800Long Bad Integer TC1228800Long Bad
Counter for 1228.8 (long) traffic channel packets with bad CRC.
TC1843200 Good Integer TC1843200 Good
Counter for 1843.2 k traffic channel packets with good CRC.
TC1843200 Bad Integer TC1843200 Bad
Counter for 1843.2 k traffic channel packets with bad CRC.
TC2457600 Good Integer TC2457600 Good
Counter for 2457 k traffic channel packets with good CRC.
TC2457600 Bad Integer TC2457600 Bad
Counter for 2457 k traffic channel packets with bad CRC.

Connection layer connection (CONNECTIONC)

Event ID CONNECTIONC
Cellular systems EVDO
Record state Always
Description Recorded when connection layer is connected.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO

Parameters for EVDO |Top|

Name Type Description
Transaction ID Integer Connection attempt transaction ID
Transaction ID associated with the ConnectionDeny message; if
there is no response from the AN or a ConnectionDeny
message is not received, this field represents the TransactionId
that was used to send the ConnectionRequest message.
Message SEQ Integer Connection attempt message sequence
Represents message sequence present in the TCA message
received; valid only if a TCA message is received.
Connection result Integer Connection attempt result
0 = Connection deny received with deny reason general
1 = Connection deny received with deny reason network busy
2 = Connection deny received with deny reason authentication
or billing failure
3 = Maximum access probes
4 = System lost (supervision failures)
5 = Not preferred (SD told OVHD to switch systems, QC
redirect, access network id)
6 = Redirect (ALMP received a redirect message)
7 = Connection setup timeout
8 = Power down received
9 = Offline received
10 = NAM change received
11 = User abort
12 = Access handoff
13 = Success
Rec. status Integer Connection reception status
0 = Not received either TCA or RTCACK message
1 = Received TCA message but not received RTCACK
message
2 = Received both TCA and RTCACK messages
Duration Integer Connection attempt duration
Time in slots taken to complete the attempt.
Unit: slot
PN Integer Connection attempt PN offset
Range: 0 – 511
Sector ID Integer Connection attempt sector ID
CC Integer Connection attempt color code
Range: 0 – 255
#PN changes Integer Connection attempt pilot changes
Defines how many times the active set pilot changed during the
connection attempt.
Direction Integer Connection attempt direction
1 = Access Network
2 = Access Terminal

Connection layer release (CONNECTIOND)

Event ID CONNECTIOND
Cellular systems EVDO
Record state Always
Description Recorded when connection layer is released.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EVDO |
Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO

Parameters for EVDO |Top|

Name Type Description
Reason Integer Connection release reason
0 = AN connection close
1 = AT connection close
2 = System lost (supervision failures, TCA message rejected)
3 = Not preferred (SD told OVHD to switch systems, QC
redirect, access network ID)
4 = Redirect (ALMP received a redirect message)
5 = Power down received
6 = Offline received
7 = NAM change received
8 = Page message received
9 = Unspecified (ALMP rude close)

Session layer connection (SESSIONC)

Event ID SESSIONC
Cellular systems EVDO
Record state Always
Description Recorded when session layer is connected.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO

Parameters for EVDO |Top|

Name Type Description
Transaction ID Integer Session attempt transaction ID
Result Integer Session attempt result
0 = Received UATI assignment message
1 = Did not receive UATI assignment message
RATI Integer Session attempt RATI
RATI used for opening a session.
Duration Integer Session attempt duration
Time in slots taken to complete the attempt.
Unit: slot
PN Integer Session attempt PN offset
Pilot number of the sector that sent the UATI assignment
message.
Range: 0 – 511
CC Integer Session attempt color code
Range: 0 – 255
Full UATI String Session attempt full UATI
Full UATI as part of the UATI assignment message.

Radio bearer information (RBI)

Event ID RBI
Cellular systems UMTS FDD,UMTS TD-SCDMA
Record state Always
Description Recorded when UMTS radio bearer allocation is modified. Currently based on information
received from the trace interface of the device.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA
#Header Integer Number of header parameters
params
#Params/RB Integer Number of parameters per radio bearer
#RBs Integer Number of radio bearers

Parameters for UMTS FDD |Top|

Name Type Description
RB ID Integer Radio bearer ID
Range: 0 – 32
RLC ID Integer Radio bearer RLC ID
Same as logical channel ID.
Range: 0 – 20
TrCh ID Integer Radio bearer transport channel ID
Range: 0 – 32
Direction Integer Radio bearer direction
0 = Uplink
1 = Downlink
Logical Ch Integer Radio bearer logical channel type
Logical channel type for this radio bearer.
0 = BCCH
1 = PCCH
2 = CCCH
3 = DCCH
4 = CTCH
5 = DTCH
6 = SHCCH
RLC mode Integer Radio bearer RLC mode
0 = TM
1 = UM
2 = AM
Radio bearer Integer Radio bearer ciphering
ciphering 0 = Disabled
1 = Enabled
TrCh type Integer Radio bearer transport channel type
0 = BCH
1 = CPCH
2 = DCH
3 = HS-DSCH
4 = PCH
5 = FACH
6 = RACH
7 = E-DCH

Parameters for UMTS TD-SCDMA |Top|

Transport channel information (TRCHI)

Event ID TRCHI
Cellular systems UMTS FDD,UMTS TD-SCDMA
Record state Always
Description Recorded when UMTS transport channel allocation is modified. Currently based on
information received from the trace interface of the device.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA
#Header params Integer Number of header parameters
#Params/TrCh Integer Number of parameters per transport channel
#TrChs Integer Number of transport channels
Range: 0 – 32

Parameters for UMTS FDD |Top|

Name Type Description
TrCh ID Integer Transport channel ID
Range: 0 – 32
CCTrCh ID Integer Coded composite transport channel ID
Range: 0 – 5
Direction Integer Direction
Transport channel direction.
0 = Uplink
1 = Downlink
2 = Relay-link (control)
TrCh type Integer Transport channel type
MAC PDUs are delivered using this channel.
0 = BCH
1 = CPCH
2 = DCH
3 = HS-DSCH
4 = PCH
5 = FACH
6 = RACH
7 = E-DCH
TrCh coding Integer Transport channel coding
0 = 1/2 and convolutional
1 = 1/3 and convolutional
2 = 1/3 and turbo
3 = No coding
CRC length Integer CRC length
Range: 0 – 24
TTI Integer Transmission time interval
Range: 0 – 80
Unit: ms
Rate-m. attr. Integer Rate-matching attribute
Range: 1 – 256

Parameters for UMTS TD-SCDMA |Top|

Radio resource connection attempt (RRA)

Event ID RRA
Cellular systems UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD
Record state Always
Description Recorded based on RRC signaling when RRC connection is attempted. This
measurement event begins the RRC connection attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD and UMTS TD-SCDMA |Parameters for LTE |

Parameters |Top|
Name Type Description
RRC context ID Context RRC context ID
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for UMTS FDD and UMTS TD-SCDMA |Top|

Name Type Description
RRC est. cause Integer RRC establishment cause
0 = Originating conversation call
1 = Originating streaming call
2 = Originating interactive call
3 = Originating background call
4 = Originating subscribed traffic call
5 = Terminating conversational call
6 = Terminating streaming call
7 = Terminating interactive call
8 = Terminating background call
9 = Emergency call
10 = Inter-RAT cell reselection
11 = Inter-RAT cell change order
12 = Registration
13 = Detach
14 = Originating high priority signaling
15 = Originating low priority signaling
16 = Call re-establishment
17 = Terminating high priority signaling
18 = Terminating low priority signaling
19 = Terminating - cause unknown

Parameters for LTE |Top|

Name Type Description
Est. cause Integer RRC establishment cause
See 3GPP TS 136.331 subclause 6.2.2
RRCConnectionRequest.
0 = Emergency
1 = High priority access
2 = Mobile terminating access
3 = Mobile originating signaling
4 = Mobile originating data
5 = Delay tolerance access
6 = Mobile originating voice call
100 = NB mobile terminating access
101 = NB mobile originating signaling
102 = NB mobile originating data
103 = NB mobile originating exception data
104 = NB delay tolerance access

Radio resource connection success (RRC)

Event ID RRC
Cellular systems UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD
Record state RRC connection attempt state
Description Recorded based on RRC signaling when RRC connection is established. This
measurement event begins the RRC connection state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD and UMTS TD-SCDMA |Parameters for LTE |

Parameters for UMTS FDD and UMTS TD-SCDMA |Top|

Name Type Description
#RRC requests Integer Number of RRC requests
Number of RRC connection attempts before the RRC
connection.

Parameters for LTE |Top|

Name Type Description

Radio resource connection failure (RRF)

Event ID RRF
Cellular systems UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD
Record state RRC connection attempt state
Description Recorded based on RRC signaling when RRC connection attempt fails. This
measurement event terminates the RRC connection attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD and UMTS TD-SCDMA |Parameters for LTE |

Parameters for UMTS FDD and UMTS TD-SCDMA |Top|

Name Type Description
#RRC request before abort Integer Number of RRC requests before abort
RRC rej. status Integer RRC rejection status
1 = Network reject
RRC rej. cause Integer RRC rejection cause
This is the same as a rejection cause in 3GPP TS 125.331
subclause 10.3.3.31.
0 = Congestion
1 = Unspecified

Parameters for LTE |Top|

Name Type Description
RRC rej. status Integer RRC rejection status
See 3GPP TS 36.331 subclause 6.2.2 RRCConnectionReject.
1 = Network reject

Radio resource connection release (RRD)

Event ID RRD
Cellular systems UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD
Record state RRC connection state
Description Recorded based on RRC signaling when RRC connection is released. This measurement
event terminates the RRC connection state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD and UMTS TD-SCDMA |Parameters for LTE |

Parameters for UMTS FDD and UMTS TD-SCDMA |Top|

Name Type Description
RRC rel. status Integer RRC release status
1 = Normal release
2 = Dropped RRC connection
RRC rel. cause Integer RRC release cause
This is the same as a release cause in 3GPP TS 125.331
subclause 10.3.3.32.
0 = Normal event
1 = Unspecified
2 = Pre-emptive release
3 = Congestion
4 = Re-establishment reject
5 = Directed signaling connection re-establishment
6 = User inactivity
1000 = T313 expired

Parameters for LTE |Top|

Name Type Description
RRC rel. status Integer RRC release status
1 = Normal release
2 = Dropped RRC connection
RRC rel. cause Integer RRC release cause
See 3GPP TS 36.331 subclause 6.2.2
RRCConnectionRelease.
0 = Load balancing TAU required
1 = Other
2 = CS fallback high priority
3 = RRC suspend
100 = NB load balancing TAU required
101 = NB other
102 = NB RRC suspend

Radio resource connection re-establishment (RRRE)

Event ID RRRE
Cellular systems LTE FDD,LTE TDD
Record state Always
Description Recorded based on RRC signaling after successful or failed RRC connection re-
establishment.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
RRC context ID Context RRC context ID
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for LTE |Top|

Name Type Description
Re-est status Integer RRC re-establishment status
See 3GPP TS 36.331 subclause 6.2.2
RRCConnectionReestablishment.
1 = Succeeded
2 = Failed
3 = Rejected
Re-est cause Integer RRC re-establishment cause
See 3GPP TS 36.331 subclause 6.2.2
RRCConnectionReestablishment.
0 = Reconfiguration failure
1 = Handover failure
2 = Other failure
100 = NB reconfiguration failure
101 = NB other failure

RAB allocation attempt (RABA)

Event ID RABA
Cellular systems UMTS FDD,LTE FDD,LTE TDD
Record state Always
Description Recorded when radio access bearer allocation is attempted. This is based on the RRC
signaling or information received from the trace interface. Also this can be logged to the
beginning of the measurement file to indicate already established RAB.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD and LTE |

Parameters |Top|
Name Type Description
RAB context ID Context RAB context ID
Measured sys. Integer Measured system
5 = UMTS FDD
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for UMTS FDD and LTE |Top|

Name Type Description
#Header params Integer Number of header parameters
RAB type Integer RAB type
1 = CS
2 = PS
RAB ID Integer RAB ID
#RAB RBs Integer Number of RAB RBs
#Params/RAB Integer Number of parameters per RAB RB
RB
RAB RB ID Integer RAB RB ID

RAB allocation success (RABC)

Event ID RABC
Cellular systems UMTS FDD,LTE FDD,LTE TDD
Record state RAB allocated attempt
Description Recorded when radio access bearer allocation succeeded. This is based on RRC
signaling or information received from the trace interface. Also this can be logged to the
beginning of the measurement file to indicate already established RAB.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD and LTE |

Parameters |Top|
Name Type Description
RAB context ID Context RAB context ID
Measured sys. Integer Measured system
5 = UMTS FDD
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for UMTS FDD and LTE |Top|

Name Type Description
#Header Integer Number of header parameters
params
RAB type Integer RAB type
1 = CS
2 = PS
RAB ID Integer RAB ID

RAB allocation failure (RABF)

Event ID RABF
Cellular systems UMTS FDD,LTE FDD,LTE TDD
Record state RAB allocation attempt state
Description Recorded when radio access bearer allocation is failed. This is based on RRC signaling
or information received from the trace interface.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD and LTE |Parameters for LTE re-establishment cause |Parameters for UMTS failure cause |Parameters for UMTS
ISHO failure cause |Parameters for GSM RR cause |

Parameters |Top|
Name Type Description
RAB context ID Context RAB context ID
Measured sys. Integer Measured system
5 = UMTS FDD
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for UMTS FDD and LTE |Top|

Name Type Description
#Header Integer Number of header parameters
params
RAB type Integer RAB type
1 = CS
2 = PS
RAB ID Integer RAB ID
RAB fail. type Integer RAB failure cause type
1 = LTE re-establishment cause
2 = UMTS failure cause
3 = UMTS ISHO failure cause
4 = GSM RR cause

Parameters for LTE re-establishment cause |Top|

Name Type Description
Re-est cause Integer RRC re-establishment cause
See 3GPP TS 36.331 subclause 6.2.2 RRCConnectionReestablishment.
0 = Reconfiguration failure
1 = Handover failure
2 = Other failure
100 = NB reconfiguration failure
101 = NB other failure

Parameters for UMTS failure cause |Top|

Name Type Description
RRC cause Integer RRC cause
This is the same as a failure cause defined by 3GPP TS 25.331
subclause 10.3.3.13.
0 = Configuration unsupported
1 = Physical channel failure
2 = Incompatible simultaneous reconfiguration
3 = Protocol error
4 = Compressed mode runtime error
5 = Cell update occurred
6 = Invalid configuration
7 = Configuration incomplete
8 = Unsupported measurement
9 = MBMS session already received correctly
10 = Lower priority MBMS service

Parameters for UMTS ISHO failure cause |Top|

Parameters for GSM RR cause |Top|

Parameters |Top|
Name Type Description
RAB context ID Context RAB context ID
Measured sys. Integer Measured system
5 = UMTS FDD
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for UMTS FDD, and LTE |Top|

Name Type Description
#Header Integer Number of header parameters
params
RAB type Integer RAB type
1 = CS
2 = PS
RAB ID Integer RAB ID
RAB release Integer RAB release type
type 1 = Network release
2 = UE release

Packet bearer allocation attempt (PBA)

Event ID PBA
Cellular systems LTE FDD,LTE TDD
Record state Always
Description Recorded when the EPS bearer allocation is attempted. This is based on the NAS
signaling or information received from the trace interface. Also this can be logged to the
beginning of the measurement file to indicate already established EPS bearer.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for LTE |
Parameters |Top|
Name Type Description
Packet bearer context ID Context Packet bearer context ID
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for LTE |Top|

Name Type Description
PB type Integer Packet bearer type
1 = Default
2 = Dedicated

Packet bearer allocation success (PBC)

Event ID PBC
Cellular systems LTE FDD,LTE TDD
Record state Packet bearer allocation attempt state
Description Recorded when the EPS bearer allocation succeeded. This is based on NAS signaling or
information received from the trace interface. Also this can be logged to the beginning of
the measurement file to indicate already established EPS bearer.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
Packet bearer context ID Context Packet bearer context ID
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for LTE |Top|

Name Type Description
PB ID Integer Packet bearer identity
With the LTE this is the same as the EPS bearer ID. See 3GPP
TS 125.007 subclause 11.2.3.1.5.
Range: 5 – 15
Linked PB ID Integer Packet bearer identity (linked)
Defines the default bearer ID for the dedicated bearer.
Range: 5 – 15
PB QCI Integer Packet bearer QoS class identifier
See 3GPP TS 123.203 subclause 6.1.7.
1 = QCI 1
Conversational voice. GBR, priority 2, delay 100 ms, PER
10E-2.
2 = QCI 2
Conversational video. GBR, priority 4, delay 150 ms, PER
10E-3.
3 = QCI 3
Real time gaming. GBR, priority 3, delay 50 ms, PER 10E-
3.
4 = QCI 4
Non-conversational video (buffered streaming). GBR,
priority 5, delay 300 ms, PER 10E-6.
5 = QCI 5
IMS signaling. Non-GBR, priority 1, delay 100 ms, PER
10E-6.
6 = QCI 6
Video (buffered streaming), TCP-based application
protocols. Non-GBR, priority 6, delay 300 ms, PER 10E-6.
7 = QCI 7
Voice, live streaming, interactive gaming. Non-GBR, priority
7, delay 100 ms, PER 10E-3.
8 = QCI 8
Video (buffered streaming), TCB-based application
protocols. Non-GBR, priority 8, delay 300 ms, PER 10E-6.
9 = QCI 9
Video (buffered streaming), TCB-based application
protocols. Non-GBR, priority 9, delay 300 ms, PER 10E-6.
65 = QCI 65
Mission critical user plane push-to-talk voice. GBR, priority
0.7, delay 75 ms, PER 10E-2.
66 = QCI 66
Non-mission-critical user plane push-to-talk voice. GBR,
priority 2, delay 100 ms, PER 10E-2.
69 = QCI 69
Mission critical delay sensitive signalling. Non-GBR, priority
0.5, delay 60 ms, PER 10E-6.
70 = QCI 70
Mission critical data (e.g. example services are the same as
QCI 6/8/9). Non-GBR, priority 5.5, delay 200 ms, PER 10E-
6.
75 = QCI 75
GBR V2X messages.
79 = QCI 79
Non-GBR V2X messages.
Range: 1 – 255

Packet bearer allocation failure (PBF)

Event ID PBF
Cellular systems LTE FDD,LTE TDD
Record state Packet bearer allocation attempt state
Description Recorded when the EPS bearer allocation failed. This is based on NAS signaling or
information received from the trace interface.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
Packet bearer context ID Context Packet bearer context ID
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for LTE |Top|

Name Type Description
ESM cause Integer EPS bearer reject cause
8 = Operator determined barring
24 = MBMS bearer capabilities insufficient for the service
25 = LLC or SNDCP failure (A/Gb mode only)
26 = Insufficient resources
27 = Missing or unknown APN
28 = Unknown PDP address or PDP type
29 = User authentication failed
30 = Activation rejected by GGSN, serving GW, or PDN GW
31 = Activation rejected, unspecified
32 = Service option not supported
33 = Requested service option not subscribed
34 = Service option temporarily out of order
35 = NSAPI/PTI already used
36 = Regular deactivation
37 = QoS not accepted
38 = Network failure
39 = Reactivation requested
40 = Feature not supported
41 = Semantic error in the TFT operation
42 = Syntactical error in the TFT operation
43 = Unknown PDP context or bearer identity
44 = Semantic errors in packet filter(s)
45 = Syntactical errors in packet filter(s)
46 = PDP context without TFT already activated
47 = Multicast group membership time-out or PTI mismatch
49 = Last PDN disconnection not allowed
50 = PDN type IPv4 only allowed
51 = PDN type IPv6 only allowed
52 = Single address bearers only allowed
53 = ESM information not received
54 = PDN connection does not exist
55 = Multiple PDN connections for a given APN not allowed
56 = Collision with network initiated request
59 = Unsupported QCI value
81 = Invalid transaction identifier or PTI value
95 = Semantically incorrect message
96 = Invalid mandatory information
97 = Message type non-existent or not implemented
98 = Message not compatible with protocol state.
99 = Information element non-existent or not implemented
100 = Conditional IE error
101 = Message not compatible with protocol state
111 = Protocol error, unspecified
112 = APN restriction value incompatible with active PDP
context

Packet bearer release (PBD)

Event ID PBD
Cellular systems LTE FDD,LTE TDD
Record state Packet bearer allocated state
Description Recorded when the EPS bearer is released. This is based on NAS signaling or
information received from the trace interface.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
Packet bearer context ID Context Packet bearer context ID
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for LTE |Top|

Name Type Description
ESM cause Integer EPS bearer release cause
8 = Operator determined barring
24 = MBMS bearer capabilities insufficient for the service
25 = LLC or SNDCP failure (A/Gb mode only)
26 = Insufficient resources
27 = Missing or unknown APN
28 = Unknown PDP address or PDP type
29 = User authentication failed
30 = Activation rejected by GGSN, serving GW, or PDN GW
31 = Activation rejected, unspecified
32 = Service option not supported
33 = Requested service option not subscribed
34 = Service option temporarily out of order
35 = NSAPI/PTI already used
36 = Regular deactivation
37 = QoS not accepted
38 = Network failure
39 = Reactivation requested
40 = Feature not supported
41 = Semantic error in the TFT operation
42 = Syntactical error in the TFT operation
43 = Unknown PDP context or bearer identity
44 = Semantic errors in packet filter(s)
45 = Syntactical errors in packet filter(s)
46 = PDP context without TFT already activated
47 = Multicast group membership time-out or PTI mismatch
49 = Last PDN disconnection not allowed
50 = PDN type IPv4 only allowed
51 = PDN type IPv6 only allowed
52 = Single address bearers only allowed
53 = ESM information not received
54 = PDN connection does not exist
55 = Multiple PDN connections for a given APN not allowed
56 = Collision with network initiated request
59 = Unsupported QCI value
81 = Invalid transaction identifier or PTI value
95 = Semantically incorrect message
96 = Invalid mandatory information
97 = Message type non-existent or not implemented
98 = Message not compatible with protocol state.
99 = Information element non-existent or not implemented
100 = Conditional IE error
101 = Message not compatible with protocol state
111 = Protocol error, unspecified
112 = APN restriction value incompatible with active PDP
context
Ciphering info (CIPI)
Event ID CIPI
Cellular systems TETRA
Record state Always
Description Recorded when ciphering information is modified.
Tools Nemo Outdoor
|Parameters |Parameters for TETRA |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
2 = TETRA

Parameters for TETRA |Top|

Name Type Description
Air encryption Integer Air interface encryption
0 = Disabled
1 = SCK
2 = DCK
KSG String Ciphering KSG
SCK String Ciphering SCK

Layer 3 signaling message (L3SM)

Event ID L3SM
Cellular systems GSM,TETRA,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,cdmaOne,CDMA
1x,GAN WLAN,AMPS,DAMPS,iDEN,ISDN
Record state Always
Description Recorded when a Layer 3 or an NAS signaling message is sent or received.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for GSM |Parameters for TETRA |Parameters for UMTS and LTE |Parameters for cdmaOne and CDMA 1x |Parameters for GAN
WLAN |Parameters for AMPS and DAMPS |Parameters for iDEN |Parameters for ISDN |

Parameters for GSM |Top|

Name Type Description
Direction Integer Layer3 direction
1 = Uplink
2 = Downlink
L3 msg String Layer3 message
Subchannel String Layer3 subchannel
The subchannel name that was used for signaling in GSM. If
the specific channel name is unknown, the channel group
name; e.g., BCH or CCCH, is written in file. BCH channels
(FCCH, SCH, BCCH) CCCH channels (PCH, RACH, AGCH)
DCCH channels (SDCCH, SACCH, FACCH) TCH channels
(TCH) Packet channels (PACCH, PDTCH).
Channel Integer Layer3 channel
BSIC Integer Layer3 BSIC
Range: 0 – 63
Type Integer Layer3 message type
1 = Normal
2 = Short L2 header
3 = 8 bit access burst
4 = 11 bit access burst
5 = 11 bit EGRPS access burst
6 = Message without header
L3 data String (hex) Layer3 data

Parameters for TETRA |Top|

Name Type Description
Direction Integer Layer3 direction
1 = Uplink
2 = Downlink
L3 msg String Layer3 message
Subchannel String Layer3 subchannel
The channel type: MCCH, TCH.
L3 data String (hex) Layer3 data

Parameters for UMTS and LTE |Top|

Name Type Description
Direction Integer Layer3 direction
1 = Uplink
2 = Downlink
L3 msg String Layer3 message
Subchannel String Layer3 subchannel
Channel Integer Layer3 channel
SC Integer Layer3 scrambling code
Scrambling code for UMTS FDD, cell parameters ID for UMTS
TD-SCDMA, and physical cell id for LTE.
Range: 0 – 511
L3 data String (hex) Layer3 data

Parameters for cdmaOne and CDMA 1x |Top|

Name Type Description
Direction Integer Layer3 direction
1 = Uplink
2 = Downlink
L3 msg String Layer3 message
Channel type String Layer3 channel type
The channel type: SCH, DPCH, DACH, DTCH, FDTCH,
RDTCH, and GCSNA.
P_REV Integer Layer3 P_REV
1 = J-STD-008 in PCS Band Only
2 = IS-95 in Cellular Band Only
3 = IS-95A + TSB74
4 = IS-95B Partial
5 = IS-95B Full
6 = IS-2000 Release 0
7 = IS-2000 Release A
8 = IS-2000 Release B Partial
9 = IS-2000 Release B Full
10 = IS-2000 Release C
11 = IS-2000 Release D (1xEV-DV)
L3 data String (hex) Layer3 data

Parameters for GAN WLAN |Top|

Name Type Description
Direction Integer Layer3 direction
1 = Uplink
2 = Downlink
L3 msg String Layer3 message
L3 data String (hex) Layer3 data

Parameters for AMPS and DAMPS |Top|

Name Type Description
Direction Integer Layer3 direction
1 = Uplink
2 = Downlink
L3 msg String Layer3 message
Channel type String Layer3 channel type
The channel type: ACC, AVC, DCCH, DTC, SCH, DPCH,
DACH, DTCH.
L3 data String (hex) Layer3 data

Parameters for iDEN |Top|

Name Type Description
Direction Integer Layer3 direction
1 = Uplink
2 = Downlink
L3 msg String Layer3 message
Subchannel String Layer3 subchannel
Possible channel types are BCCH, CCCH, TCCH, RACH,
DCCH, PCH, PBCH.
L3 data String (hex) Layer3 data
Parameters for ISDN |Top|
Name Type Description
Direction Integer Layer3 direction
1 = Uplink
2 = Downlink
L3 msg String Layer3 message
Subchannel String Layer3 subchannel
Possible channel types are CCS and CAS. See more
https://en.wikipedia.org/wiki/Common-channel_signaling.
L3 data String (hex) Layer3 data

Layer 2 signaling message (L2SM)

Event ID L2SM
Cellular systems GSM
Record state Always
Description Recorded when a Layer 3 or an NAS signaling message is sent or received.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for GSM |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM

Parameters for GSM |Top|

Name Type Description
Direction Integer Layer2 direction
1 = Uplink
2 = Downlink
L2 msg String Layer2 message
Subchannel String Layer2 subchannel
The subchannel name that was used for signaling in GSM. If
the specific channel name is unknown, the channel group
name; e.g., BCH or CCCH, is written in file. BCH channels
(FCCH, SCH, BCCH) CCCH channels (PCH, RACH, AGCH)
DCCH channels (SDCCH, SACCH, FACCH) TCH channels
(TCH) Packet channels (PACCH, PDTCH).
ARFCN Integer Layer2 channel
BSIC Integer Layer2 BSIC
Range: 0 – 63
Type Integer Layer2 message type
1 = Normal
2 = Short L2 header
3 = 8 bit access burst
4 = 11 bit access burst
5 = 11 bit EGRPS access burst
6 = Message without header
L2 data String (hex) Layer2 data

RRC signaling message (RRCSM)

Event ID RRCSM
Cellular systems UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD
Record state Always
Description Recorded when an RRC signaling message is sent or received.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for UMTS |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for UMTS |Top|

Name Type Description
Direction Integer RRC direction
1 = Uplink
2 = Downlink
RRC msg String RRC message name
Subchannel String RRC subchannel
Defines the used logical channel or combination of logical and
transport channel. Possible values are DCCH, CCCH, PCCH,
BCCH, BCCH_BCH, BCCH_FACH, and MCCH.
UARFCN Integer RRC channel
SC Integer RRC scrambling code
Range: 0 – 511
RRC data String (hex) RRC data

Parameters for LTE |Top|

Name Type Description
Direction Integer RRC direction
1 = Uplink
2 = Downlink
RRC msg String RRC message name
Subchannel String RRC subchannel
Defines the used logical channel or combination of logical and
transport channel. Possible values are BCCH-BCH, BCCH-
SCH, PCCH, CCCH, DCCH, MCCH, NB-DCCH, NB-CCCH,
NB-PCCH, NB-BCCH-SCH, NB-BCCH-SCH.
EARFCN Integer RRC channel
PCI Integer RRC physical cell ID
Range: 0 – 503
RRC data String (hex) RRC data

RLC signaling message (RLCSM)

Event ID RLCSM
Cellular systems UMTS FDD
Record state Always
Description Recorded when an RLC signaling message is sent or received.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for UMTS FDD |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD

Parameters for UMTS FDD |Top|

Name Type Description
Direction Integer RLC direction
1 = Uplink
2 = Downlink
RLC msg String RLC message
Subchannel String RLC subchannel
The subchannel that was used for signaling in UMTS. For
system information messages, the subchannel is a combination
of the logical channel and the transport channel (CCCH, DCCH,
BCCH, PCCH, SHCCH).
RB Integer RLC radio bearer
Range: 0 – 32
RLC mode Integer RLC mode
0 = TM
1 = UM
2 = AM
Length indicator Integer RLC length indicator size
Defines the size of the RLC length indicator field. Valid values
are 0, 7, and 15.
Range: 0 – 15
Unit: bit
RLC data String (hex) RLC data
MAC signaling message (MACSM)
Event ID MACSM
Cellular systems GSM,WiMAX
Record state Always
Description Recorded when an MAC signaling message is sent or received.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for GSM |Parameters for WiMAX |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
25 = WiMAX

Parameters for GSM |Top|

Name Type Description
Direction Integer RLC/MAC direction
1 = Uplink
2 = Downlink
RLC/MAC msg String RLC/MAC message
Subchannel String RLC/MAC subchannel
The subchannel name that was used for signaling (PRACH,
PTCCH, PCCCH, PACCH or PDTCH).
Type Integer RLC/MAC message type
1 = Normal
2 = Short L2 header
3 = 8 bit access burst
4 = 11 bit access burst
5 = 11 bit EGRPS access burst
6 = Message without header
RLC/MAC data String (hex) RLC/MAC data

Parameters for WiMAX |Top|

Name Type Description
Direction Integer MAC direction
1 = Uplink
2 = Downlink
MAC msg. String MAC message
Frame number Integer MAC frame number
MAC data String (hex) MAC data
Contents of the signaling message in hexadecimal values.
MAC ver Integer WiMAX MAC version
5 = 802.16e-2005
6 = 802.16/cor2-2007

LLC signaling message (LLCSM)

Event ID LLCSM
Cellular systems GSM,TETRA
Record state Always
Description Recorded when an LLC signaling message is sent or received.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for GSM |Parameters for TETRA |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
2 = TETRA

Parameters for GSM |Top|

Name Type Description
Direction Integer LLC direction
1 = Uplink
2 = Downlink
LLC msg String LLC message
The LLC message name in text format.
LLC data String (hex) LLC data
Contents of the LLC message in hexadecimal values.

Parameters for TETRA |Top|

SNP signaling message (SNPSM)

Event ID SNPSM
Cellular systems EVDO
Record state Always
Description Recorded when an SNP signaling message is sent or received.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EVDO |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
12 = EVDO
Parameters for EVDO |Top|
Name Type Description
Direction Integer SNP direction
1 = Uplink
2 = Downlink
SNP msg. name String SNP message name
SNP ch type String SNP channel type
SNP layer String SNP layer
Protocol subtype Integer SNP protocol subtype
SNP data String (hex) SNP data

RRLP signaling message (RRLPSM)

Event ID RRLPSM
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,GAN WLAN
Record state Always
Description Recorded when an RRLP signaling message is sent or received.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM, UMTS FDD, UMTS TD-SCDMA, and GAN WLAN |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
21 = GAN WLAN

Parameters for GSM, UMTS FDD, UMTS TD-SCDMA, and GAN WLAN |Top|
Name Type Description
Direction Integer RRLP direction
1 = Uplink
2 = Downlink
RRLP msg String RRLP message
Subchannel String RRLP subchannel
RRLP data String (hex) RRLP data
Contents of the RRLP message in hexadecimal values.
LPP signaling message (LPPSM)
Event ID LPPSM
Cellular systems LTE FDD,LTE TDD
Record state Always
Description Recorded when a LTE positioning protocol signaling message is sent or received.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for LTE |Top|

Name Type Description
Direction Integer LPP direction
1 = Uplink
2 = Downlink
LPP msg String LPP message
LPP data String (hex) LPP data
Contents of the LTE positioning protocol message in
hexadecimal values.

GAN signaling message (GANSM)

Event ID GANSM
Cellular systems GAN WLAN
Record state Always
Description Recorded when a GAN signaling message is sent or received.
Tools Nemo Outdoor
|Parameters |Parameters for GAN WLAN |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
21 = GAN WLAN

Parameters for GAN WLAN |Top|

Name Type Description
Direction Integer GAN direction
1 = Uplink
2 = Downlink
GAN msg. String GAN message
Subchannel String GAN subchannel
GAN msg. data String (hex) GAN message data

SIP signaling message (SIPSM)

Event ID SIPSM
Cellular systems All
Record state Always
Description Recorded when an SIP signaling message is sent or received.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO
20 = WLAN
21 = GAN WLAN
25 = WiMAX
50 = NMT
51 = AMPS
52 = NAMPS
53 = DAMPS
54 = ETACS
55 = iDEN
60 = PSTN
61 = ISDN
62 = IP
65 = DVB-H
Direction Integer SIP direction
1 = Uplink
2 = Downlink
SIP name String SIP message
SIP data String (hex) SIP data
Contents of the SIP message in hexadecimal values.
RTP signaling message (RTPSM)
Event ID RTPSM
Cellular systems All
Record state Always
Description Recorded when an RTP signaling message is sent or received.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO
20 = WLAN
21 = GAN WLAN
25 = WiMAX
50 = NMT
51 = AMPS
52 = NAMPS
53 = DAMPS
54 = ETACS
55 = iDEN
60 = PSTN
61 = ISDN
62 = IP
65 = DVB-H
Direction Integer RTP direction
1 = Uplink
2 = Downlink
RTP message String RTP message
RTP SEQ N Integer RTP message sequence number
Range: 0 – 65535
RTP data String (hex) RTP data

Packet session activation attempt (PAA)

Event ID PAA
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,CDMA 1x,EVDO,GAN
WLAN,WiMAX,iDEN
Record state Idle state
Description Recorded when the user initiates the packet session activation attempt. If this information
is not available, the measurement event is recorded with both GSM and UMTS when
ACTIVATE_PDP_CONTEXT_REQUEST signaling message is sent to the network. Note
that PAA, PAC, PAF, and PAD measurement events are not an exact match with the PDP
context in GSM and UMTS but are instead used to describe "general" packet session.
E.g. some modem initialization or attach can be done before the PDP CONTEXT
REQUEST signaling message is sent to the network. If the packet session is active in the
beginning of the measurement, the PAA and PAC pair is recorded immediately at the
beginning of the measurement. This measurement event begins the packet activation
attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM, UMTS, and LTE |Parameters for CDMA 1x and EVDO |Parameters for iDEN |

Parameters for GSM, UMTS, and LTE |Top|

Name Type Description
Initiator Integer Initiator
1 = Mobile station initiated
2 = Network station initiated
Protocol type Integer Packet protocol type
1 = IPv4
2 = IPv6
3 = IPv4v6
APN String Access point name
Static IP String Requested packet protocol address
If static IP address is used, this is own IP address in string
format between quotes. If dynamic IP allocation is used, IP
address is 0.0.0.0.
Header compr. Integer Header compression
0 = Off
1 = On (manufacturer preferred compression)
2 = RFC1144 (VanJacobsen)
3 = RFC2507 (Degermark)
4 = RFC3095 (RoHC)
Compression Integer Data compression
0 = Off
1 = On (manufacturer preferred compression)
2 = V.42bis
3 = V.44

Parameters for CDMA 1x and EVDO |Top|

Name Type Description
Initiator Integer Initiator
1 = Mobile station initiated
2 = Network station initiated
Protocol type Integer Packet protocol type
1 = IPv4
2 = IPv6
3 = IPv4v6
Parameters for iDEN |Top|
Name Type Description
Initiator Integer Initiator
1 = Mobile station initiated
2 = Network station initiated
Protocol type Integer Packet protocol type
1 = IPv4
2 = IPv6
3 = IPv4v6

Packet session activation failed (PAF)

Event ID PAF
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,CDMA 1x,EVDO,GAN
WLAN,WiMAX,iDEN
Record state Packet activation attempt state
Description Recorded when packet session activation attempt fails. The failure can be based on
signaling, trace interface, or Microsoft Windows Operating System RAS causes. This
measurement event terminates the packet activation attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Packet session context ID Context Packet session context ID
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
11 = CDMA 1x
12 = EVDO
21 = GAN WLAN
25 = WiMAX
55 = iDEN
Fail status Integer Packet session connection failure status
1 = User abort
2 = Network reject (SM cause)
3 = Mobile reject (SM cause)
4 = Timeout
5 = PPP error (OS RAS cause)
6 = Test system failure (OS RAS cause)
7 = No service
Deact. cause Integer Packet session deactivation cause
8 = Operator determined barring
24 = MBMS bearer capabilities insufficient for the service
25 = LLC or SNDCP failure (A/Gb mode only)
26 = Insufficient resources
27 = Missing or unknown APN
28 = Unknown PDP address or PDP type
29 = User authentication failed
30 = Activation rejected by GGSN, serving GW, or PDN GW
31 = Activation rejected, unspecified
32 = Service option not supported
33 = Requested service option not subscribed
34 = Service option temporarily out of order
35 = NSAPI/PTI already used
36 = Regular deactivation
37 = QoS not accepted
38 = Network failure
39 = Reactivation requested
40 = Feature not supported
41 = Semantic error in the TFT operation
42 = Syntactical error in the TFT operation
43 = Unknown PDP context or bearer identity
44 = Semantic errors in packet filter(s)
45 = Syntactical errors in packet filter(s)
46 = PDP context without TFT already activated
47 = Multicast group membership time-out or PTI mismatch
49 = Last PDN disconnection not allowed
50 = PDN type IPv4 only allowed
51 = PDN type IPv6 only allowed
52 = Single address bearers only allowed
53 = ESM information not received
54 = PDN connection does not exist
55 = Multiple PDN connections for a given APN not allowed
56 = Collision with network initiated request
59 = Unsupported QCI value
81 = Invalid transaction identifier or PTI value
95 = Semantically incorrect message
96 = Invalid mandatory information
97 = Message type non-existent or not implemented
98 = Message not compatible with protocol state.
99 = Information element non-existent or not implemented
100 = Conditional IE error
101 = Message not compatible with protocol state
111 = Protocol error, unspecified
112 = APN restriction value incompatible with active PDP
context
600 = An operation is pending.
601 = An invalid port handle was detected.
602 = The specified port is already open.
603 = The caller's buffer is too small.
604 = Incorrect information was specified.
605 = The port information cannot be set.
606 = The specified port is not connected.
607 = An invalid event was detected.
608 = A device was specified that does not exist.
609 = A device type was specified that does not exist.
610 = An invalid buffer was specified.
611 = A route was specified that is not available.
612 = A route was specified that is not allocated.
613 = An invalid compression was specified.
614 = There were insufficient buffers available.
615 = The specified port was not found.
616 = An asynchronous request is pending.
617 = The modem (or other connecting device) is already
disconnecting.
618 = The specified port is not open.
619 = The specified port is not connected.
620 = No endpoints could be determined.
621 = The system could not open the phone book file.
622 = The system could not load the phone book file.
623 = The system could not find the phone book entry for this
connection.
624 = The system could not update the phone book file.
625 = The system found invalid information in the phone book
file.
626 = A string could not be loaded.
627 = A key could not be found.
628 = The connection was closed.
629 = The connection was closed by the remote computer.
630 = The modem (or other connecting device) was
disconnected due to hardware failure.
631 = The user disconnected the modem (or other connecting
device).
632 = An incorrect structure size was detected.
633 = The modem (or other connecting device) is already in use
or is not configured properly.
634 = Your computer could not be registered on the remote
network.
635 = There was an unknown error.
636 = The device attached to the port is not the one expected.
637 = A string was detected that could not be converted.
638 = The request has timed out.
639 = No asynchronous net is available.
640 = An error has occurred involving NetBIOS.
641 = The server cannot allocate NetBIOS resources needed to
support the client.
642 = One of your computer's NetBIOS names is already
registered on the remote network.
643 = A network adapter at the server failed.
644 = You will not receive network message popups.
645 = There was an internal authentication error.
646 = The account is not permitted to log on at this time of day.
647 = The account is disabled.
648 = The password for this account has expired.
649 = The account does not have permission to dial in.
650 = The remote access server is not responding.
651 = The modem (or other connecting device) has reported an
error.
652 = There was an unrecognized response from the modem
(or other connecting device).
653 = A macro required by the modem (or other connecting
device) was not found in the device.INF file.
654 = A command or response in the device.INF file section
refers to an undefined macro.
655 = The macro was not found in the device.INF file section.
656 = The macro in the device.INF file section contains an
undefined macro.
657 = The device.INF file could not be opened.
658 = The device name in the device.INF or media.INI file is too
long.
659 = The media.INI file refers to an unknown device name.
660 = The device.INF file contains no responses for the
command.
661 = The device.INF file is missing a command.
662 = There was an attempt to set a macro not listed in
device.INF file section.
663 = The media.INI file refers to an unknown device type.
664 = The system has run out of memory.
665 = The modem (or other connecting device) is not properly
configured.
666 = The modem (or other connecting device) is not
functioning.
667 = The system was unable to read the media.INI file.
668 = The connection was terminated.
669 = The usage parameter in the media.INI file is invalid.
670 = The system was unable to read the section name from
the media.INI file.
671 = The system was unable to read the device type from the
media.INI file.
672 = The system was unable to read the device name from the
media.INI file.
673 = The system was unable to read the usage from the
media.INI file.
674 = The system was unable to read the maximum connection
BPS rate from the media.INI file.
675 = The system was unable to read the maximum carrier
connection speed from the media.INI file.
676 = The phone line is busy.
677 = A person answered instead of a modem (or other
connecting device).
678 = There was no answer.
679 = The system could not detect the carrier.
680 = There was no dial tone.
681 = The modem (or other connecting device) reported a
general error.
682 = There was an error in writing the section name.
683 = There was an error in writing the device type.
684 = There was an error in writing the device name.
685 = There was an error in writing the maximum connection
speed.
686 = There was an error in writing the maximum carrier speed.
687 = There was an error in writing the usage.
688 = There was an error in writing the default-off.
689 = There was an error in reading the default-off.
690 = ERROR_EMPTY_INI_FILE
691 = Access was denied because the username and/or
password was invalid on the domain.
692 = There was a hardware failure in the modem (or other
connecting device).
693 = ERROR_NOT_BINARY_MACRO
694 = ERROR_DCB_NOT_FOUND
695 = The state machines are not started.
696 = The state machines are already started.
697 = The response looping did not complete.
698 = A response keyname in the device.INF file is not in the
expected format.
699 = The modem (or other connecting device) response
caused a buffer overflow.
700 = The expanded command in the device.INF file is too long.
701 = The modem moved to a connection speed not supported
by the COM driver.
702 = Device response received when none expected.
703 = The connection needs information from you, but the
application does not allow user interaction.
704 = The callback number is invalid.
705 = The authorization state is invalid.
706 = ERROR_WRITING_INITBPS
707 = There was an error related to the X.25 protocol.
708 = The account has expired.
709 = There was an error changing the password on the
domain. The password might have been too short or might have
matched a previously used password.
710 = Serial overrun errors were detected while communicating
with the modem.
711 = The Remote Access Service Manager could not start.
Additional information is provided in the event log.
712 = The two-way port is initializing. Wait a few seconds and
redial.
713 = No active ISDN lines are available.
714 = No ISDN channels are available to make the call.
715 = Too many errors occurred because of poor phone line
quality.
716 = The Remote Access Service IP configuration is unusable.
717 = No IP addresses are available in the static pool of
Remote Access Service IP addresses.
718 = The connection timed out waiting for a valid response
from the remote computer.
719 = The connection was terminated by the remote computer.
720 = The connection attempt failed because your computer
and the remote computer could not agree on PPP control
protocols.
721 = The remote computer is not responding.
722 = Invalid data was received from the remote computer. This
data was ignored.
723 = The phone number, including prefix and suffix, is too
long.
724 = The IPX protocol cannot dial out on the modem (or other
connecting device) because this computer is not configured for
dialing out (it is an IPX router).
725 = The IPX protocol cannot dial in on the modem (or other
connecting device) because this computer is not configured for
dialing in (the IPX router is not installed).
726 = The IPX protocol cannot be used for dialing out on more
than one modem (or other connecting device) at a time.
727 = Cannot access TCPCFG.DLL.
728 = The system cannot find an IP adapter.
729 = SLIP cannot be used unless the IP protocol is installed.
730 = Computer registration is not complete.
731 = The protocol is not configured.
732 = Your computer and the remote computer could not agree
on PPP control protocols.
733 = Your computer and the remote computer could not agree
on PPP control protocols.
734 = The PPP link control protocol was terminated.
735 = The requested address was rejected by the server.
736 = The remote computer terminated the control protocol.
737 = Loopback was detected.
738 = The server did not assign an address.
739 = The authentication protocol required by the remote server
cannot use the stored password. Redial, entering the password
explicitly.
740 = An invalid dialing rule was detected.
741 = The local computer does not support the required data
encryption type.
742 = The remote computer does not support the required data
encryption type.
743 = The remote computer requires data encryption.
744 = The system cannot use the IPX network number
assigned by the remote computer. Additional information is
provided in the event log.
745 = ERROR_INVALID_SMM
746 = ERROR_SMM_UNINITIALIZED
747 = ERROR_NO_MAC_FOR_PORT
748 = ERROR_SMM_TIMEOUT
749 = ERROR_BAD_PHONE_NUMBER
750 = ERROR_WRONG_MODULE
751 = The callback number contains an invalid character. Only
the following 18 characters are allowed: 0 to 9, T, P, W, (, ), -,
@, and space.
752 = A syntax error was encountered while processing a
script.
753 = The connection could not be disconnected because it
was created by the multi-protocol router.
754 = The system could not find the multi-link bundle.
755 = The system cannot perform automated dial because this
connection has a custom dialer specified.
756 = This connection is already being dialed.
757 = Remote Access Services could not be started
automatically. Additional information is provided in the event
log.
758 = Internet Connection Sharing is already enabled on the
connection.
759 = An error occurred while the existing Internet Connection
Sharing settings were being changed.
760 = An error occurred while routing capabilities were being
enabled.
761 = An error occurred while Internet Connection Sharing was
being enabled for the connection.
762 = An error occurred while the local network was being
configured for sharing.
763 = Internet Connection Sharing cannot be enabled. There is
more than one LAN connection other than the connection to be
shared.
764 = No smart card reader is installed.
765 = Internet Connection Sharing cannot be enabled. A LAN
connection is already configured with the IP address that is
required for automatic IP addressing.
766 = A certificate could not be found. Connections that use the
L2TP protocol over IPSec require the installation of a machine
certificate, also known as a computer certificate.
767 = Internet Connection Sharing cannot be enabled. The LAN
connection selected as the private network has more than one
IP address configured. Please reconfigure the LAN connection
with a single IP address before enabling Internet Connection
Sharing.
768 = The connection attempt failed because of failure to
encrypt data.
769 = The specified destination is not reachable.
770 = The remote computer rejected the connection attempt.
771 = The connection attempt failed because the network is
busy.
772 = The remote computer's network hardware is incompatible
with the type of call requested.
773 = The connection attempt failed because the destination
number has changed.
774 = The connection attempt failed because of a temporary
failure. Try connecting again.
775 = The call was blocked by the remote computer.
776 = The call could not be connected because the remote
computer has invoked the Do Not Disturb feature.
777 = The connection attempt failed because the modem (or
other connecting device) on the remote computer is out of
order.
778 = It was not possible to verify the identity of the server.
779 = To dial out using this connection you must use a smart
card.
780 = An attempted function is not valid for this connection.
781 = The encryption attempt failed because no valid certificate
was found.
782 = Connection Sharing (NAT) is currently installed as a
routing protocol, and must be removed before enabling Internet
Connection Sharing.
783 = Internet Connection Sharing cannot be enabled. The LAN
connection selected as the private network is either not present,
or is disconnected from the network. Please ensure that the
LAN adapter is connected before enabling Internet Connection
Sharing.
784 = You cannot dial using this connection at logon time,
because it is configured to use a user name different than the
one on the smart card. If you want to use it at logon time, you
must configure it to use the user name on the smart card.
785 = You cannot dial using this connection at logon time,
because it is not configured to use a smart card. If you want to
use it at logon time, you must edit the properties of this
connection so that it uses a smart card.
786 = The L2TP connection attempt failed because there is no
valid machine certificate on your computer for security
authentication.
787 = The L2TP connection attempt failed because the security
layer could not authenticate the remote computer.
788 = The L2TP connection attempt failed because the security
layer could not negotiate compatible parameters with the
remote computer.
789 = The L2TP connection attempt failed because the security
layer encountered a processing error during initial negotiations
with the remote computer.
790 = The L2TP connection attempt failed because certificate
validation on the remote computer failed.
791 = The L2TP connection attempt failed because security
policy for the connection was not found.
792 = The L2TP connection attempt failed because security
negotiation timed out.
793 = The L2TP connection attempt failed because an error
occurred while negotiating security.
794 = The Framed Protocol RADIUS attribute for this user is not
PPP.
795 = The Tunnel Type RADIUS attribute for this user is not
correct.
796 = The Service Type RADIUS attribute for this user is
neither Framed nor Callback Framed.
797 = The connection failed because the modem (or other
connecting device) was not found. Please make sure that the
modem or other connecting device is installed.
798 = A certificate could not be found that can be used with this
Extensible Authentication Protocol.
799 = Not available
Packet session activated (PAC)
Event ID PAC
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,CDMA 1x,EVDO,GAN
WLAN,WiMAX,iDEN
Record state Packet activation attempt state
Description Recorded when packet session activation is successful on NAS layer. Normally this is
based on signaling messages but there can be other basis as well (e.g. if packet session
is active when measurement is started, the measurement event is recorded immediately).
This measurement event starts the packet active state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Packet session deactivated (PAD)

Event ID PAD
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,CDMA 1x,EVDO,GAN
WLAN,WiMAX,iDEN
Record state Packet active state
Description Recorded when packet session is terminated. The measurement event is not recorded
before the packet session has been terminated by BOTH the NAS signaling layer AND
the possible operating system-based services used for the connection (e.g. with the
Microsoft Windows, the RAS has terminated the connection). This measurement event
terminates the packet active state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Packet session context ID Context Packet session context ID
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
11 = CDMA 1x
12 = EVDO
21 = GAN WLAN
25 = WiMAX
55 = iDEN
Deact. status Integer Packet session deactivation status
1 = Normal deactivation
2 = Network deactivation (SM cause)
3 = Mobile deactivation (SM cause)
4 = Timeout
5 = PPP error (OS RAS cause)
6 = Test system failure (OS RAS cause)
7 = No service
Deact. cause Integer Packet session deactivation cause
8 = Operator determined barring
24 = MBMS bearer capabilities insufficient for the service
25 = LLC or SNDCP failure (A/Gb mode only)
26 = Insufficient resources
27 = Missing or unknown APN
28 = Unknown PDP address or PDP type
29 = User authentication failed
30 = Activation rejected by GGSN, serving GW, or PDN GW
31 = Activation rejected, unspecified
32 = Service option not supported
33 = Requested service option not subscribed
34 = Service option temporarily out of order
35 = NSAPI/PTI already used
36 = Regular deactivation
37 = QoS not accepted
38 = Network failure
39 = Reactivation requested
40 = Feature not supported
41 = Semantic error in the TFT operation
42 = Syntactical error in the TFT operation
43 = Unknown PDP context or bearer identity
44 = Semantic errors in packet filter(s)
45 = Syntactical errors in packet filter(s)
46 = PDP context without TFT already activated
47 = Multicast group membership time-out or PTI mismatch
49 = Last PDN disconnection not allowed
50 = PDN type IPv4 only allowed
51 = PDN type IPv6 only allowed
52 = Single address bearers only allowed
53 = ESM information not received
54 = PDN connection does not exist
55 = Multiple PDN connections for a given APN not allowed
56 = Collision with network initiated request
59 = Unsupported QCI value
81 = Invalid transaction identifier or PTI value
95 = Semantically incorrect message
96 = Invalid mandatory information
97 = Message type non-existent or not implemented
98 = Message not compatible with protocol state.
99 = Information element non-existent or not implemented
100 = Conditional IE error
101 = Message not compatible with protocol state
111 = Protocol error, unspecified
112 = APN restriction value incompatible with active PDP
context
600 = An operation is pending.
601 = An invalid port handle was detected.
602 = The specified port is already open.
603 = The caller's buffer is too small.
604 = Incorrect information was specified.
605 = The port information cannot be set.
606 = The specified port is not connected.
607 = An invalid event was detected.
608 = A device was specified that does not exist.
609 = A device type was specified that does not exist.
610 = An invalid buffer was specified.
611 = A route was specified that is not available.
612 = A route was specified that is not allocated.
613 = An invalid compression was specified.
614 = There were insufficient buffers available.
615 = The specified port was not found.
616 = An asynchronous request is pending.
617 = The modem (or other connecting device) is already
disconnecting.
618 = The specified port is not open.
619 = The specified port is not connected.
620 = No endpoints could be determined.
621 = The system could not open the phone book file.
622 = The system could not load the phone book file.
623 = The system could not find the phone book entry for this
connection.
624 = The system could not update the phone book file.
625 = The system found invalid information in the phone book
file.
626 = A string could not be loaded.
627 = A key could not be found.
628 = The connection was closed.
629 = The connection was closed by the remote computer.
630 = The modem (or other connecting device) was
disconnected due to hardware failure.
631 = The user disconnected the modem (or other connecting
device).
632 = An incorrect structure size was detected.
633 = The modem (or other connecting device) is already in use
or is not configured properly.
634 = Your computer could not be registered on the remote
network.
635 = There was an unknown error.
636 = The device attached to the port is not the one expected.
637 = A string was detected that could not be converted.
638 = The request has timed out.
639 = No asynchronous net is available.
640 = An error has occurred involving NetBIOS.
641 = The server cannot allocate NetBIOS resources needed to
support the client.
642 = One of your computer's NetBIOS names is already
registered on the remote network.
643 = A network adapter at the server failed.
644 = You will not receive network message popups.
645 = There was an internal authentication error.
646 = The account is not permitted to log on at this time of day.
647 = The account is disabled.
648 = The password for this account has expired.
649 = The account does not have permission to dial in.
650 = The remote access server is not responding.
651 = The modem (or other connecting device) has reported an
error.
652 = There was an unrecognized response from the modem
(or other connecting device).
653 = A macro required by the modem (or other connecting
device) was not found in the device.INF file.
654 = A command or response in the device.INF file section
refers to an undefined macro.
655 = The macro was not found in the device.INF file section.
656 = The macro in the device.INF file section contains an
undefined macro.
657 = The device.INF file could not be opened.
658 = The device name in the device.INF or media.INI file is too
long.
659 = The media.INI file refers to an unknown device name.
660 = The device.INF file contains no responses for the
command.
661 = The device.INF file is missing a command.
662 = There was an attempt to set a macro not listed in
device.INF file section.
663 = The media.INI file refers to an unknown device type.
664 = The system has run out of memory.
665 = The modem (or other connecting device) is not properly
configured.
666 = The modem (or other connecting device) is not
functioning.
667 = The system was unable to read the media.INI file.
668 = The connection was terminated.
669 = The usage parameter in the media.INI file is invalid.
670 = The system was unable to read the section name from
the media.INI file.
671 = The system was unable to read the device type from the
media.INI file.
672 = The system was unable to read the device name from the
media.INI file.
673 = The system was unable to read the usage from the
media.INI file.
674 = The system was unable to read the maximum connection
BPS rate from the media.INI file.
675 = The system was unable to read the maximum carrier
connection speed from the media.INI file.
676 = The phone line is busy.
677 = A person answered instead of a modem (or other
connecting device).
678 = There was no answer.
679 = The system could not detect the carrier.
680 = There was no dial tone.
681 = The modem (or other connecting device) reported a
general error.
682 = There was an error in writing the section name.
683 = There was an error in writing the device type.
684 = There was an error in writing the device name.
685 = There was an error in writing the maximum connection
speed.
686 = There was an error in writing the maximum carrier speed.
687 = There was an error in writing the usage.
688 = There was an error in writing the default-off.
689 = There was an error in reading the default-off.
690 = ERROR_EMPTY_INI_FILE
691 = Access was denied because the username and/or
password was invalid on the domain.
692 = There was a hardware failure in the modem (or other
connecting device).
693 = ERROR_NOT_BINARY_MACRO
694 = ERROR_DCB_NOT_FOUND
695 = The state machines are not started.
696 = The state machines are already started.
697 = The response looping did not complete.
698 = A response keyname in the device.INF file is not in the
expected format.
699 = The modem (or other connecting device) response
caused a buffer overflow.
700 = The expanded command in the device.INF file is too long.
701 = The modem moved to a connection speed not supported
by the COM driver.
702 = Device response received when none expected.
703 = The connection needs information from you, but the
application does not allow user interaction.
704 = The callback number is invalid.
705 = The authorization state is invalid.
706 = ERROR_WRITING_INITBPS
707 = There was an error related to the X.25 protocol.
708 = The account has expired.
709 = There was an error changing the password on the
domain. The password might have been too short or might have
matched a previously used password.
710 = Serial overrun errors were detected while communicating
with the modem.
711 = The Remote Access Service Manager could not start.
Additional information is provided in the event log.
712 = The two-way port is initializing. Wait a few seconds and
redial.
713 = No active ISDN lines are available.
714 = No ISDN channels are available to make the call.
715 = Too many errors occurred because of poor phone line
quality.
716 = The Remote Access Service IP configuration is unusable.
717 = No IP addresses are available in the static pool of
Remote Access Service IP addresses.
718 = The connection timed out waiting for a valid response
from the remote computer.
719 = The connection was terminated by the remote computer.
720 = The connection attempt failed because your computer
and the remote computer could not agree on PPP control
protocols.
721 = The remote computer is not responding.
722 = Invalid data was received from the remote computer. This
data was ignored.
723 = The phone number, including prefix and suffix, is too
long.
724 = The IPX protocol cannot dial out on the modem (or other
connecting device) because this computer is not configured for
dialing out (it is an IPX router).
725 = The IPX protocol cannot dial in on the modem (or other
connecting device) because this computer is not configured for
dialing in (the IPX router is not installed).
726 = The IPX protocol cannot be used for dialing out on more
than one modem (or other connecting device) at a time.
727 = Cannot access TCPCFG.DLL.
728 = The system cannot find an IP adapter.
729 = SLIP cannot be used unless the IP protocol is installed.
730 = Computer registration is not complete.
731 = The protocol is not configured.
732 = Your computer and the remote computer could not agree
on PPP control protocols.
733 = Your computer and the remote computer could not agree
on PPP control protocols.
734 = The PPP link control protocol was terminated.
735 = The requested address was rejected by the server.
736 = The remote computer terminated the control protocol.
737 = Loopback was detected.
738 = The server did not assign an address.
739 = The authentication protocol required by the remote server
cannot use the stored password. Redial, entering the password
explicitly.
740 = An invalid dialing rule was detected.
741 = The local computer does not support the required data
encryption type.
742 = The remote computer does not support the required data
encryption type.
743 = The remote computer requires data encryption.
744 = The system cannot use the IPX network number
assigned by the remote computer. Additional information is
provided in the event log.
745 = ERROR_INVALID_SMM
746 = ERROR_SMM_UNINITIALIZED
747 = ERROR_NO_MAC_FOR_PORT
748 = ERROR_SMM_TIMEOUT
749 = ERROR_BAD_PHONE_NUMBER
750 = ERROR_WRONG_MODULE
751 = The callback number contains an invalid character. Only
the following 18 characters are allowed: 0 to 9, T, P, W, (, ), -,
@, and space.
752 = A syntax error was encountered while processing a
script.
753 = The connection could not be disconnected because it
was created by the multi-protocol router.
754 = The system could not find the multi-link bundle.
755 = The system cannot perform automated dial because this
connection has a custom dialer specified.
756 = This connection is already being dialed.
757 = Remote Access Services could not be started
automatically. Additional information is provided in the event
log.
758 = Internet Connection Sharing is already enabled on the
connection.
759 = An error occurred while the existing Internet Connection
Sharing settings were being changed.
760 = An error occurred while routing capabilities were being
enabled.
761 = An error occurred while Internet Connection Sharing was
being enabled for the connection.
762 = An error occurred while the local network was being
configured for sharing.
763 = Internet Connection Sharing cannot be enabled. There is
more than one LAN connection other than the connection to be
shared.
764 = No smart card reader is installed.
765 = Internet Connection Sharing cannot be enabled. A LAN
connection is already configured with the IP address that is
required for automatic IP addressing.
766 = A certificate could not be found. Connections that use the
L2TP protocol over IPSec require the installation of a machine
certificate, also known as a computer certificate.
767 = Internet Connection Sharing cannot be enabled. The LAN
connection selected as the private network has more than one
IP address configured. Please reconfigure the LAN connection
with a single IP address before enabling Internet Connection
Sharing.
768 = The connection attempt failed because of failure to
encrypt data.
769 = The specified destination is not reachable.
770 = The remote computer rejected the connection attempt.
771 = The connection attempt failed because the network is
busy.
772 = The remote computer's network hardware is incompatible
with the type of call requested.
773 = The connection attempt failed because the destination
number has changed.
774 = The connection attempt failed because of a temporary
failure. Try connecting again.
775 = The call was blocked by the remote computer.
776 = The call could not be connected because the remote
computer has invoked the Do Not Disturb feature.
777 = The connection attempt failed because the modem (or
other connecting device) on the remote computer is out of
order.
778 = It was not possible to verify the identity of the server.
779 = To dial out using this connection you must use a smart
card.
780 = An attempted function is not valid for this connection.
781 = The encryption attempt failed because no valid certificate
was found.
782 = Connection Sharing (NAT) is currently installed as a
routing protocol, and must be removed before enabling Internet
Connection Sharing.
783 = Internet Connection Sharing cannot be enabled. The LAN
connection selected as the private network is either not present,
or is disconnected from the network. Please ensure that the
LAN adapter is connected before enabling Internet Connection
Sharing.
784 = You cannot dial using this connection at logon time,
because it is configured to use a user name different than the
one on the smart card. If you want to use it at logon time, you
must configure it to use the user name on the smart card.
785 = You cannot dial using this connection at logon time,
because it is not configured to use a smart card. If you want to
use it at logon time, you must edit the properties of this
connection so that it uses a smart card.
786 = The L2TP connection attempt failed because there is no
valid machine certificate on your computer for security
authentication.
787 = The L2TP connection attempt failed because the security
layer could not authenticate the remote computer.
788 = The L2TP connection attempt failed because the security
layer could not negotiate compatible parameters with the
remote computer.
789 = The L2TP connection attempt failed because the security
layer encountered a processing error during initial negotiations
with the remote computer.
790 = The L2TP connection attempt failed because certificate
validation on the remote computer failed.
791 = The L2TP connection attempt failed because security
policy for the connection was not found.
792 = The L2TP connection attempt failed because security
negotiation timed out.
793 = The L2TP connection attempt failed because an error
occurred while negotiating security.
794 = The Framed Protocol RADIUS attribute for this user is not
PPP.
795 = The Tunnel Type RADIUS attribute for this user is not
correct.
796 = The Service Type RADIUS attribute for this user is
neither Framed nor Callback Framed.
797 = The connection failed because the modem (or other
connecting device) was not found. Please make sure that the
modem or other connecting device is installed.
798 = A certificate could not be found that can be used with this
Extensible Authentication Protocol.
799 = Not available
Deact. time Integer Packet session deactivation time
Minimum value: 0
Unit: ms

Quality of service profile request (QSPR)

Event ID QSPR
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,GAN WLAN
Record state Packet activation attempt and packet active state
Description Recorded when new QoS profile is requested or reconfigured. Information is based on
configured QoS settings and NAS signaling.
Tools Nemo Outdoor
|Parameters |

Parameters |Top|
Name Type Description
Packet session context ID Context Packet session context ID
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
21 = GAN WLAN
Req. avg. TPut class Integer Requested average throughput class
Average transfer rate at which data is transferred across the
network.
0 = Subscribed value
1 = Up to 0.22 bit/s
2 = Up to 0.44 bit/s
3 = Up to 1.11 bit/s
4 = Up to 2.2 bit/s
5 = Up to 4.4 bit/s
6 = Up to 11.1 bit/s
7 = Up to 22 bit/s
8 = Up to 44 bit/s
9 = Up to 111 bit/s
10 = Up to 0.22 kbit/s
11 = Up to 0.44 kbit/s
12 = Up to 1.11 kbit/s
13 = Up to 2.2 kbit/s
14 = Up to 4.4 kbit/s
15 = Up to 11.1 kbit/s
16 = Up to 22 kbit/s
17 = Up to 44 kbit/s
18 = Up to 111 kbit/s
31 = Best effort
Req. peak TPut class Integer Requested peak throughput class
The maximum transfer rate at which data is transferred across
the network.
0 = Subscribed value
1 = Up to 8 kbit/s
2 = Up to 16 kbit/s
3 = Up to 32 kbit/s
4 = Up to 64 kbit/s
5 = Up to 128 kbit/s
6 = Up to 256 kbit/s
7 = Up to 512 kbit/s
8 = Up to 1024 kbit/s
9 = Up to 2048 kbit/s
Req. delay class Integer Requested delay class
0 = Subscribed value
1 = Less than 0.5 seconds
2 = Less than 5 seconds
3 = Less than 50 seconds
4 = Best effort
Req. priority class Integer Requested priority class
0 = Subscribed value
1 = High
2 = Normal
3 = Low
Req. reliab. class Integer Requested reliability class
0 = Subscribed value
1 = Like X.25
2 = Like IP
3 = For signaling
4 = For text TV style application
5 = For video
Min avg. TPut class Integer Minimum accepted average throughput class
0 = Accept all
1 = Up to 0.22 bit/s
2 = Up to 0.44 bit/s
3 = Up to 1.11 bit/s
4 = Up to 2.2 bit/s
5 = Up to 4.4 bit/s
6 = Up to 11.1 bit/s
7 = Up to 22 bit/s
8 = Up to 44 bit/s
9 = Up to 111 bit/s
10 = Up to 0.22 kbit/s
11 = Up to 0.44 kbit/s
12 = Up to 1.11 kbit/s
13 = Up to 2.2 kbit/s
14 = Up to 4.4 kbit/s
15 = Up to 11.1 kbit/s
16 = Up to 22 kbit/s
17 = Up to 44 kbit/s
18 = Up to 111 kbit/s
31 = Best effort
Min peak TPut class Integer Minimum accepted peak throughput class
0 = Accept all
1 = Up to 8 kbit/s
2 = Up to 16 kbit/s
3 = Up to 32 kbit/s
4 = Up to 64 kbit/s
5 = Up to 128 kbit/s
6 = Up to 256 kbit/s
7 = Up to 512 kbit/s
8 = Up to 1024 kbit/s
9 = Up to 2048 kbit/s
Min delay class Integer Minimum accepted delay class
0 = Accept all
1 = Less than 0.5 seconds
2 = Less than 5 seconds
3 = Less than 50 seconds
4 = Lest effort
Min priority class Integer Minimum accepted priority class
0 = Accept all
1 = High
2 = Normal
3 = Low
Min reliab. class Integer Minimum accepted reliability class
0 = Accept all
1 = Like X.25
2 = Like IP
3 = For signaling
4 = For text TV style application
5 = For video
Req. traffic class Integer Requested traffic class
0 = Conversational
1 = Streaming
2 = Interactive
3 = Background
4 = Subscribed value
Req. max UL TPut Integer Requested maximum uplink bitrate
0 = Subscribed value
Minimum value: 0
Unit: kbit/s
Req. max DL TPut Integer Requested maximum downlink bitrate
0 = Subscribed value
Minimum value: 0
Unit: kbit/s
Req. gr. UL TPut Integer Requested guaranteed uplink bitrate
0 = Subscribed value
Minimum value: 0
Unit: kbit/s
Req. gr. DL TPut Integer Requested guaranteed downlink bitrate
0 = Subscribed value
Minimum value: 0
Unit: kbit/s
Req. deliv. order Integer Requested delivery order
0 = No
1 = Yes
2 = Subscribed value
Req. max SDU size Integer Requested maximum SDU size
0 = Subscribed value
Range: 0 – 1500
Unit: byte
Req. SDU err. ratio String Requested SDU error ratio
E0E is subscribed value.
Req. resid. BER String Requested residual bit error ratio
E0E is subscribed value.
Req. deliv. err. SDU Integer Requested delivery of erroneous SDUs
0 = No
1 = Yes
2 = No detect
3 = Subscribed value
Req. transfer delay Integer Requested transfer delay
0 = Subscribed value
Range: 0 – 4100
Unit: ms
Req. THP Integer Requested traffic handling priority
1 is the highest priority.
0 = Subscribed value
Range: 0 – 3
Min traffic class Integer Minimum accepted traffic class
0 = Conversational
1 = Streaming
2 = Interactive
3 = Background
4 = Accept all
Min max UL TPut Integer Minimum accepted maximum uplink bitrate
0 = Accept all
Minimum value: 0
Unit: kbit/s
Min max DL TPut Integer Minimum accepted maximum downlink bitrate
0 = Accept all
Minimum value: 0
Unit: kbit/s
Min gr. UL TPut Integer Minimum accepted guaranteed uplink bitrate
0 = Accept all
Minimum value: 0
Unit: kbit/s
Min gr. DL TPut Integer Minimum accepted guaranteed downlink bitrate
0 = Accept all
Minimum value: 0
Unit: kbit/s
Min deliv. order Integer Minimum accepted delivery order
0 = No
1 = Yes
2 = Accept all
Min max SDU size Integer Minimum accepted maximum SDU size
0 = Accept all
Range: 0 – 1500
Unit: byte
Min SDU err. String Minimum accepted SDU error ratio
Min resid. BER String Minimum accepted residual bit error ratio
Min del. err. SDU Integer Minimum accepted delivery of erroneous SDUs
0 = No
1 = Yes
2 = No detect
3 = Accept all
Min tranfer delay Integer Minimum accepted transfer delay
0 = Accept all
Range: 0 – 4100
Unit: ms
Min THP Integer Minimum accepted traffic handling priority
1 is the highest priority.
0 = Accept all
Range: 0 – 3
Req. QCI Integer Requested EPS QoS class identifier
See 3GPP TS 23.203 subclause 6.1.7.
0 = Subscribed value
1 = QCI 1
Conversational voice. GBR, priority 2, delay 100 ms, PER
10E-2.
2 = QCI 2
Conversational video. GBR, priority 4, delay 150 ms, PER
10E-3.
3 = QCI 3
Real time gaming. GBR, priority 3, delay 50 ms, PER 10E-
3.
4 = QCI 4
Non-conversational video (buffered streaming). GBR,
priority 5, delay 300 ms, PER 10E-6.
5 = QCI 5
IMS signaling. Non-GBR, priority 1, delay 100 ms, PER
10E-6.
6 = QCI 6
Video (buffered streaming), TCP-based application
protocols. Non-GBR, priority 6, delay 300 ms, PER 10E-6.
7 = QCI 7
Voice, live streaming, interactive gaming. Non-GBR, priority
7, delay 100 ms, PER 10E-3.
8 = QCI 8
Video (buffered streaming), TCB-based application
protocols. Non-GBR, priority 8, delay 300 ms, PER 10E-6.
9 = QCI 9
Video (buffered streaming), TCB-based application
protocols. Non-GBR, priority 9, delay 300 ms, PER 10E-6.
65 = QCI 65
Mission critical user plane push-to-talk voice. GBR, priority
0.7, delay 75 ms, PER 10E-2.
66 = QCI 66
Non-mission-critical user plane push-to-talk voice. GBR,
priority 2, delay 100 ms, PER 10E-2.
69 = QCI 69
Mission critical delay sensitive signalling. Non-GBR, priority
0.5, delay 60 ms, PER 10E-6.
70 = QCI 70
Mission critical data (e.g. example services are the same as
QCI 6/8/9). Non-GBR, priority 5.5, delay 200 ms, PER 10E-
6.
75 = QCI 75
GBR V2X messages.
79 = QCI 79
Non-GBR V2X messages.
Range: 0 – 255
Req. EPS max UL TPut Integer Requested EPS maximum uplink bitrate
Minimum value: 0
Unit: kbit/s
Req. EPS max DL TPut Integer Requested EPS maximum downlink bitrate
Minimum value: 0
Unit: kbit/s
Req. EPS gr. UL TPut Integer Requested EPS guaranteed uplink bitrate
Minimum value: 0
Unit: kbit/s
Req. EPS gr. DL TPut Integer Requested EPS guaranteed downlink bitrate
Minimum value: 0
Unit: kbit/s
Quality of service profile negotiated (QSPN)
Event ID QSPN
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,GAN WLAN
Record state Packet active state
Description Recorded when the first QoS configuration is received or the current one is reconfigured.
This information is based on NAS signaling.
Tools Nemo Outdoor
|Parameters |

Parameters |Top|
Name Type Description
Packet session context ID Context Packet session context ID
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
21 = GAN WLAN
Avg TPut class Integer Negotiated average throughput class
Average transfer rate at which data is transferred across the
network.
1 = Up to 0.22 bit/s
2 = Up to 0.44 bit/s
3 = Up to 1.11 bit/s
4 = Up to 2.2 bit/s
5 = Up to 4.4 bit/s
6 = Up to 11.1 bit/s
7 = Up to 22 bit/s
8 = Up to 44 bit/s
9 = Up to 111 bit/s
10 = Up to 0.22 kbit/s
11 = Up to 0.44 kbit/s
12 = Up to 1.11 kbit/s
13 = Up to 2.2 kbit/s
14 = Up to 4.4 kbit/s
15 = Up to 11.1 kbit/s
16 = Up to 22 kbit/s
17 = Up to 44 kbit/s
18 = Up to 111 kbit/s
31 = Best effort
Peak TPut class Integer Negotiated peak throughput class
1 = Up to 8 bit/s
2 = Up to 16 kbit/s
3 = Up to 32 kbit/s
4 = Up to 64 kbit/s
5 = Up to 128 kbit/s
6 = Up to 256 kbit/s
7 = Up to 512 kbit/s
8 = Up to 1024 kbit/s
9 = Up to 2048 kbit/s
Delay class Integer Negotiated delay class
1 = Less than 0.5 seconds
2 = Less than 5 seconds
3 = Less than 50 seconds
4 = Best effort
Priority class Integer Negotiated priority class
1 = High
2 = Normal
3 = Low
Reliab. class Integer Negotiated reliability class
1 = Like X.25
2 = Like IP
3 = For signaling
4 = For text TV style application
5 = For video
Traffic class Integer Negotiated traffic class
0 = Conversational
1 = Streaming
2 = Interactive
3 = Background
Max UL TPut Integer Negotiated maximum uplink bitrate
Minimum value: 0
Unit: kbit/s
Max DL TPut Integer Negotiated maximum downlink bitrate
Minimum value: 0
Unit: kbit/s
Gr. UL TPut Integer Negotiated guaranteed uplink bitrate
Minimum value: 0
Unit: kbit/s
Gr. DL TPut Integer Negotiated guaranteed downlink bitrate
Minimum value: 0
Unit: kbit/s
Deliv. order Integer Negotiated delivery order
0 = No
1 = Yes
Max SDU size Integer Negotiated maximum SDU size
Negotiated maximum service data unit (SDU) size.
Range: 0 – 1500
Unit: byte
SDU err. ratio String Negotiated SDU error ratio
Resid. BER String Negotiated residual bit error ratio
Deliv. err. SDU Integer Negotiated delivery of erroneous SDUs
0 = No
1 = Yes
2 = No detect
Transf. delay Integer Negotiated transfer delay
Range: 0 – 4100
Unit: ms
THP Integer Negotiated traffic handling priority
1 is the highest priority.
Range: 0 – 3
QCI Integer Negotiated EPS QoS class identifier
See 3GPP TS 23.203 subclause 6.1.7.
1 = QCI 1
Conversational voice. GBR, priority 2, delay 100 ms, PER
10E-2.
2 = QCI 2
Conversational video. GBR, priority 4, delay 150 ms, PER
10E-3.
3 = QCI 3
Real time gaming. GBR, priority 3, delay 50 ms, PER 10E-
3.
4 = QCI 4
Non-conversational video (buffered streaming). GBR,
priority 5, delay 300 ms, PER 10E-6.
5 = QCI 5
IMS signaling. Non-GBR, priority 1, delay 100 ms, PER
10E-6.
6 = QCI 6
Video (buffered streaming), TCP-based application
protocols. Non-GBR, priority 6, delay 300 ms, PER 10E-6.
7 = QCI 7
Voice, live streaming, interactive gaming. Non-GBR, priority
7, delay 100 ms, PER 10E-3.
8 = QCI 8
Video (buffered streaming), TCB-based application
protocols. Non-GBR, priority 8, delay 300 ms, PER 10E-6.
9 = QCI 9
Video (buffered streaming), TCB-based application
protocols. Non-GBR, priority 9, delay 300 ms, PER 10E-6.
65 = QCI 65
Mission critical user plane push-to-talk voice. GBR, priority
0.7, delay 75 ms, PER 10E-2.
66 = QCI 66
Non-mission-critical user plane push-to-talk voice. GBR,
priority 2, delay 100 ms, PER 10E-2.
69 = QCI 69
Mission critical delay sensitive signalling. Non-GBR, priority
0.5, delay 60 ms, PER 10E-6.
70 = QCI 70
Mission critical data (e.g. example services are the same as
QCI 6/8/9). Non-GBR, priority 5.5, delay 200 ms, PER 10E-
6.
75 = QCI 75
GBR V2X messages.
79 = QCI 79
Non-GBR V2X messages.
Range: 0 – 255
EPS max UL TPut Integer Negotiated EPS maximum uplink bitrate
Minimum value: 0
Unit: kbit/s
EPS max DL TPut Integer Negotiated EPS maximum downlink bitrate
Minimum value: 0
Unit: kbit/s
EPS gr. UL TPut Integer Negotiated EPS guaranteed uplink bitrate
Minimum value: 0
Unit: kbit/s
EPS gr. DL TPut Integer Negotiated EPS guaranteed downlink bitrate
Minimum value: 0
Unit: kbit/s

Packet channel info (PCHI)

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
11 = CDMA 1x
12 = EVDO
20 = WLAN
21 = GAN WLAN

Parameters for GSM |Top|

Name Type Description
Packet tech. Integer Packet technology
1 = GPRS
2 = EGPRS
101 = GPRS + WLAN
102 = EGPRS + WLAN
Packet state Integer Packet state
0 = No GPRS available
1 = Detached
2 = Attached
3 = Standby
4 = Packet session active
5 = Suspended
RAC Integer Routing area code
Radio priority Integer Radio priority
The RLC/MAC radio priority level for uplink user data transmission.
Prior. acc. th. Integer Priority access THR
Priority access threshold.
Range: 0 – 7
Split PG cycle Integer Split PG cycle
The split PG cycle parameter defines the DRX period.
Unit: s
PS coding UL Integer Packet channel coding uplink
1 = MCS-1
CS-1 with GPRS.
2 = MCS-2
CS-2 with GPRS.
3 = MCS-3
CS-3 with GPRS.
4 = MCS-4
CS-4 with GPRS.
5 = MCS-5
6 = MCS-6
7 = MCS-7
8 = MCS-8
9 = MCS-9
PS coding DL Integer Packet channel coding downlink
1 = MCS-1
CS-1 with GPRS.
2 = MCS-2
CS-2 with GPRS.
3 = MCS-3
CS-3 with GPRS.
4 = MCS-4
CS-4 with GPRS.
5 = MCS-5
6 = MCS-6
7 = MCS-7
8 = MCS-8
9 = MCS-9
#PS TSL UL Integer Number of packet timeslots uplink
#PS TSL DL Integer Number of packet timeslots downlink
PS TSL Integer Packet timeslot
Allocated uplink timeslots. Number of timeslots in list is indicated by
previous parameter.
PS TSL Integer Packet timeslot
Allocated downlink timeslots. Number of timeslots in list is indicated by
previous parameter.
NMO Integer Network mode of operation
1 = NMO1
Combined routing area and location area update is done through
PPCH (PBCCH is present). Paging messages can be sent
through PCH or PPCH. Gs interface between SGSN and MSC is
present.
2 = NMO2
Separate routing area and location area update is done through
PCH (no PBCCH). All paging on PCH. Gs interface between
SGSN and MSC is not present.
3 = NMO3
Separate routing area and location area update. CS paging is
done on PCH and PS paging is done on PPCH (PBCCH is
present). Gs interface between SGSN and MSC is not present.
NCO Integer Network control order
0 = NC0
Mobile controlled cell re-selection without measurement reports.
1 = NC1
Mobile controlled cell re-selection with measurement reports.
2 = NC2
Network controlled cell re-selection with measurement reports.
IR status UL Integer Incremental redundancy status uplink
This is same as resegment bit in RLC/MAC signaling messages and
also known as ARQ mode. See 3GPP TS 144.060 subclause 8.1.1.
0 = Disabled
Type 1 ARQ.
1 = Enabled
Type 2 ARQ.
PBCCH Integer PBCCH status
0 = Disabled
1 = Enabled
CLRS hyst. Float GPRS cell reselection hysteresis
Range: 0 – 14
Unit: dB
CLRS time Integer GPRS cell reselection penalty time
Range: 0 – 300
Unit: ms

Parameters for UMTS FDD |Top|

Name Type Description
Packet tech. Integer Packet technology
3 = UMTS FDD
5 = HSDPA
Used when HS_DSCH_RECEPTION variable is true (3GPP TS
125.331).
10 = HSPA
Used when both HS_DSCH_RECEPTION and
E_DCH_TRANSMISSION variables are true (3GPP TS 125.331).
18 = DC-HSDPA
Before version 2.21 this was logged as HSPA (10). This is DC-
HSDPA and SC-HSUPA.
20 = DC-HSUPA
DC-HSDPA is configured simultaneously.
103 = UMTS FDD + WLAN
105 = HSDPA + WLAN
110 = HSPA + WLAN
118 = DC-HSDPA + WLAN
DC-HSDPA, SC-HSUPA, and WLAN.
120 = DC-HSUPA + WLAN
DC-HSDPA is configured simultaneously.
Packet state Integer Packet state
0 = No GPRS available
1 = Detached
2 = Attached
3 = Standby
4 = Packet session active
5 = Suspended
RAC Integer Routing area code
NMO Integer Network mode of operation
1 = NMO1
Combined routing area and location area update is done through
PPCH (PBCCH is present). Paging messages can be sent
through PCH or PPCH. Gs interface between SGSN and MSC is
present.
2 = NMO2
Separate routing area and location area update is done through
PCH (no PBCCH). All paging on PCH. Gs interface between
SGSN and MSC is not present.
3 = NMO3
Separate routing area and location area update. CS paging is
done on PCH and PS paging is done on PPCH (PBCCH is
present). Gs interface between SGSN and MSC is not present.
HSDPA category Integer HSDPA used UE category
Defines the current maximum possible HSDPA UE category. This is
limited by cell configuration and UE capabilities. The value can be
smaller than the maximum UE category supported by the mobile if for
example the currently used cell is restricting the UE category (either
MAC-ehs or dual cell mode is not supported).
Range: 1 – 24
HS-DSCH SC Integer HSDPA serving HS-DSCH scrambling code
Range: 0 – 511
#HS-SCCHs Integer HSDPA #HS-SCCHs
Range: 1 – 4
Pwr. offset Float HSDPA HS-DSCH measurement power offset
Measurement power offset. This parameter is configured in RRC
layer.
Range: −6 – 13
Unit: dB
ACK/NACK Integer HSDPA ACK/NACK repetition factor
repetitions Controls how often the UE repeats each ACK or NACK. See 3GPP TS
25.214 subclause 6A.1.1.
Range: 1 – 4
HSDPA H-RNTI Integer HSDPA H-RNTI
Range: 0 – 65535
HSUPA UE categ. Integer HSUPA UE category
Defines the current maximum possible HSUPA UE category. This is
limited by cell configuration and UE capabilities.
Range: 1 – 12
TTI Integer HSUPA TTI
HSUPA transmission time interval.
Range: 2 – 10
Unit: ms
PLnon-max Float HSUPA PLnon-max
Puncturing limit used to determine the combination of SF and number
of codes that are used for transmitting E-DCH with certain data rate.
Range: 0.44 – 1
Rate matching Integer HSUPA rate matching mode
Defines how retransmitted data is combined.
1 = Chase combining (CC)
2 = Incremental redundancy (IR)
Primary E-RNTI Integer HSUPA primary E-RNTI
Range: 0 – 65535
Secondary E-RNTI Integer HSUPA secondary E-RNTI
Range: 0 – 65535
E-DPCCH power Float HSUPA E-DPCCH/DPCCH power offset
offset Range: 0 – 6
Unit: dBm
Happy bit delay Integer HSUPA happy bit delay condition
cond. Range: 2 – 1000
Unit: ms
AGCH OVSF Integer HSUPA AGCH channelisation code
Range: 0 – 255
E-TFCI table Integer HSUPA E-TFCI table index
Range: 0 – 4
HSDPA 64QAM Integer HSDPA 64QAM
0 = Disabled
1 = Enabled
HSDPA MIMO Integer HSDPA MIMO
0 = Disabled
1 = Enabled
HSDPA MAC Integer HSDPA MAC header type
header type Defines what kind of MAC header is used for HSDPA.
0 = MAC-hs
Bit aligned. See 3GPP TS 125.308 subclause 6.2.3.
1 = MAC-ehs
Octet aligned. See 3GPP TS 125.308 subclause 6.2.4.
#HSDPA cells Integer Number of secondary HSDPA cells
Range: 0 – 1
#Params/HSDPA Integer Number of parameters per secondary HSDPA cell
cell
HSPA Ch 2 Integer HSPA serving channel (secondary)
HSPA SC 2 Integer HSPA serving scrambling code (secondary)
Range: 0 – 511
H-RNTI 2 Integer HSDPA H-RNTI (secondary)
Range: 0 – 65535
#HS-SCCHs 2 Integer HSDPA #HS-SCCHs (secondary)
Range: 1 – 4
Pwr. offset 2 Float HSDPA HS-DSCH measurement power offset (secondary)
Measurement power offset. This parameter is configured in RRC
layer.
Range: −6 – 13
Unit: dB
HSDPA 64QAM Integer HSDPA 64QAM (secondary)
2 0 = Disabled
1 = Enabled
HSDPA MAC Integer HSDPA MAC header type (secondary)
type 2 Defines what kind of MAC header is used for HSDPA.
0 = MAC-hs
Bit aligned. See 3GPP TS 125.308 subclause 6.2.3.
1 = MAC-ehs
Octet aligned. See 3GPP TS 125.308 subclause 6.2.4.
Primary E-RNTI Integer HSUPA primary E-RNTI (secondary)
2 Range: 0 – 65535
Secondary E- Integer HSUPA secondary E-RNTI (secondary)
RNTI 2 Range: 0 – 65535
AGCH OVSF 2 Integer HSUPA AGCH channelisation code (secondary)
Range: 0 – 255

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
Packet tech. Integer Packet technology
11 = TD-SCDMA
13 = TD-HSDPA
Packet state Integer Packet state
0 = No GPRS available
1 = Detached
2 = Attached
3 = Standby
4 = Packet session active
5 = Suspended
RAC Integer Routing area code
NMO Integer Network mode of operation
1 = NMO1
Combined routing area and location area update is done through
PPCH (PBCCH is present). Paging messages can be sent
through PCH or PPCH. Gs interface between SGSN and MSC is
present.
2 = NMO2
Separate routing area and location area update is done through
PCH (no PBCCH). All paging on PCH. Gs interface between
SGSN and MSC is not present.
3 = NMO3
Separate routing area and location area update. CS paging is
done on PCH and PS paging is done on PPCH (PBCCH is
present). Gs interface between SGSN and MSC is not present.
HSDPA UE categ. Integer HSDPA UE category
Defines the current maximum possible HSDPA UE category. This is
limited by cell configuration and UE capabilities.
Range: 1 – 15
HSDPA H-RNTI Integer HSDPA H-RNTI
Range: 0 – 65535

Parameters for LTE |Top|

Name Type Description
Packet tech. Integer Packet technology
14 = LTE FDD
16 = LTE TDD
19 = LTE DL CA
Before version 2.21 this was logged as LTE FDD (14) or LTE TDD
(16).
21 = LTE UL+DL CA
22 = NB-IoT
23 = LTE-M
114 = LTE FDD + WLAN
116 = LTE TDD + WLAN
119 = LTE DL CA + WLAN
121 = LTE UL+DL CA + WLAN
Packet state Integer Packet state
0 = No GPRS available
1 = Detached
2 = Attached
3 = Standby
4 = Packet session active
5 = Suspended

Parameters for CDMA 1x |Top|

Name Type Description
Packet tech. Integer Packet technology
4 = CDMA 1x
Packet state Integer Packet state (CDMA 1x)
0 = Null
1 = Init
2 = Connected
3 = Dormant
4 = Reconnect

Parameters for EVDO |Top|

Name Type Description
Packet tech. Integer Packet technology
6 = EVDO rel 0
7 = EVDO rev A
15 = EVDO rev B
Access state Integer Access terminal state
0 = Inactivity
AT switched to 1X or is in deep sleep.
1 = Acquisition
2 = Sync
3 = Idle
4 = Access
5 = Connected
Packet ch type Integer Packet channel type
1 = Access channel
2 = Reverse traffic channel
3 = Control channel
4 = Forward traffic channel
Packet carrier Integer Packet carrier number
Sector ID String Sector ID
128-bit sector address of the serving sector.
Subnet Mask Integer Sector subnet identifier
Range: 0 – 255
CC Integer Color code
Range: 0 – 255
Hybrid Mode Integer Hybrid mode
0 = Off
1 = On
Session state Integer Session state
Summary session layer states.
0 = Closed
1 = AMP setup
2 = AT-initiated negotiation
3 = AN-initiated negotiation
4 = Open
5 = Closing
ALMP state Integer ALMP state
0 = Inactive
1 = Initialization
2 = Idle
3 = Connected
Init state Integer Initialization protocol state
0 = Inactive
1 = Network detecmination
2 = Pilot acquisition
3 = Sync
Idle state Integer Idle protocol state
0 = Inactive
1 = Monitor
2 = Sleep
3 = Connection setup
4 = Suspend
Connected state Integer Connected protocol state
0 = Inactive
1 = Open
Route update state Integer Route update protocol state
0 = Inactive
1 = Idle
2 = Connection setup
3 = Connected
4 = Synchronize connecction
Overhead msg. Integer Overhead message protocol state
state 0 = Inactive
1 = Process all messages
2 = Sleep
3 = Frequency change in progress
4 = Access handoff in progress
5 = Wait for link
EVDO MCC Integer EVDO MCC
See ITU-T recommendation E.212.
Range: 0 – 999
EVDO MNC Integer EVDO MNC
Range: 0 – 999
Window A Integer Search window activate set
Window C Integer Search window candidate set
Window N Integer Search window neighbor set
Pilot add Float Pilot add
Unit: dB
Pilot drop Float Pilot drop
Unit: dB
Pilot compare Float Pilot compare
Unit: dB
Pilot drop timer Integer Pilot drop timer
Minimum value: 0
Unit: ms
Soft slope Integer Soft slope
Inequality criterion for adding or dropping a pilot from the active set.
Add intercept Float Add intercept
Unit: dB
Drop intercept Float Drop intercept
Unit: dB
Set maximum age Integer Set maximum age

Parameters for WLAN |Top|

Name Type Description
Packet tech. Integer Packet technology
17 = WLAN
Packet state Integer Packet state
1 = Detached
4 = Packet session active

Parameters for GAN WLAN |Top|

Name Type Description
Packet tech. Integer Packet technology
8 = GAN
Packet state Integer Packet state
0 = No GPRS available
1 = Detached
2 = Attached
3 = Standby
4 = Packet session active
5 = Suspended
RAC Integer Routing area code

Attach attempt (GAA)

Event ID GAA
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,GAN WLAN,LTE FDD,LTE TDD
Record state Idle state
Description Recorded based on signaling when attach is attempted. This measurement event begins
the attach attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Attach failed (GAF)

Event ID GAF
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,GAN WLAN,LTE FDD,LTE TDD
Record state Attach attempt state
Description Recorded based on signaling when attach attempt fails. This measurement event
terminates the attach attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Attach context ID Context Attach context ID
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
21 = GAN WLAN
Attach fail Integer Attach failure status
This is same as GMM cause value. Note that 'PPP error'-value
is deprecated and it is not used anymore.
1 = User abort
2 = Network reject
3 = Mobile reject
4 = Timeout
5 = PPP error (OS RAS cause) (not used anymore)
Deprecated. This value is not logged anymore.
6 = Test system failure (OS RAS cause)
7 = No service
Att. fail. cause Integer Attach failure cause
2 = IMSI unknown in HLR/HSS
3 = Illegal MS
5 = IMEI not accepted
6 = Illegal ME
7 = GPRS/EPS services not allowed
8 = GPRS/EPS services and non-GPRS/non-EPS services not
allowed
9 = MS identity cannot be derived by the network
10 = Implicitly detached
11 = PLMN not allowed
12 = Location/tracking area not allowed
13 = Roaming not allowed in this location area
14 = GPRS/EPS services not allowed in this PLMN
15 = No suitable cells in location/tracking area
16 = MSC temporarily not reachable
17 = Network failure
18 = CS domain not available
LTE only.
19 = ESM failure
LTE only.
20 = MAC failure
21 = Synch failure
22 = Congestion
23 = MS security capabilities mismatch
24 = Security mode rejected, unspecified
25 = Not authorized for this CSG
LTE only.
26 = Non-EPS authentication unacceptable
LTE only.
39 = CS domain temporarily not available
LTE only.
40 = No PDP/EPS bearer context activated
95 = Semantically incorrect message
96 = Invalid mandatory information
97 = Message type non-existent or not implemented
98 = Message type not compatible with the protocol state
99 = Information element non-existent or not implemented
100 = Conditional IE error
101 = Message not compatible with the protocol state
111 = Protocol error, unspecified
1000 = Radio switch off

Attach connected (GAC)

Event ID GAC
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,GAN WLAN,LTE FDD,LTE TDD
Record state Attach attempt state
Description Recorded based on signaling when attach attempt is successful. This measurement
event begins the attach state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters |

Parameters |Top|
Name Type Description
Parameters |Top|
Name Type Description
Attach context ID Context Attach context ID
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
21 = GAN WLAN

Detach (GAD)
Event ID GAD
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,GAN WLAN,LTE FDD,LTE TDD
Record state Attach state
Description Recorded when detach is completed. This measurement event terminates the attach
state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Attach context ID Context Attach context ID
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
21 = GAN WLAN
Detach status Integer GPRS detach status
1 = User detach
2 = Network detach (GMM cause)
3 = Mobile detach (GMM cause)
6 = Test system failure
7 = No service
Detach cause Integer Detach cause
With GSM and UMTS see 3GPP TS 124.008 subclause
10.5.5.14. With LTE see 3GPP TS 124.301 9.9.3.9.
2 = IMSI unknown in HLR/HSS
3 = Illegal MS
5 = IMEI not accepted
6 = Illegal ME
7 = GPRS/EPS services not allowed
8 = GPRS/EPS services and non-GPRS/non-EPS services not
allowed
9 = MS identity cannot be derived by the network
10 = Implicitly detached
11 = PLMN not allowed
12 = Location/tracking area not allowed
13 = Roaming not allowed in this location area
14 = GPRS/EPS services not allowed in this PLMN
15 = No suitable cells in location/tracking area
16 = MSC temporarily not reachable
17 = Network failure
18 = CS domain not available
LTE only.
19 = ESM failure
LTE only.
20 = MAC failure
21 = Synch failure
22 = Congestion
23 = MS security capabilities mismatch
24 = Security mode rejected, unspecified
25 = Not authorized for this CSG
LTE only.
26 = Non-EPS authentication unacceptable
LTE only.
39 = CS domain temporarily not available
LTE only.
40 = No PDP/EPS bearer context activated
95 = Semantically incorrect message
96 = Invalid mandatory information
97 = Message type non-existent or not implemented
98 = Message type not compatible with the protocol state
99 = Information element non-existent or not implemented
100 = Conditional IE error
101 = Message not compatible with the protocol state
111 = Protocol error, unspecified
1000 = Radio switch off
Detach time Integer Detach time
Time from detach attempt to detach.
Minimum value: 0
Unit: ms

Packet RX power control (PRXPC)

Event ID PRXPC
Cellular systems UMTS TD-SCDMA
Record state Packet active state
Description Recorded when the information is received from the device.
Tools Nemo Outdoor
|Parameters |Parameters for UMTS TD-SCDMA |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
6 = UMTS TD-SCDMA

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
#Header Integer Number of header parameters
params
HS-SCCH SIR Float HSDPA HS-SCCH SIR
Range: −30 – 25
Unit: dB
HS-SCCH ISCP Float HSDPA HS-SCCH ISCP
Range: −116 – −25
Unit: dB
HS-SCCH Float HSDPA HS-SCCH RSCP
RSCP Range: −116 – −25
Unit: dB
HS-SCCH C/I Float HSDPA HS-SCCH C/I
Range: −30 – 40
Unit: dB
HS-PDSCH SIR Float HSDPA HS-PDSCH SIR
Range: −30 – 25
Unit: dB
#Timeslots Integer Number of timeslots
#Params/TSL Integer Number of parameters per timeslot
TSL Integer Timeslot
Range: 0 – 6
HS-PDSCH Float HSDPA HS-PDSCH ISCP
ISCP Range: −116 – −25
Unit: dB
HS-PDSCH Float HSDPA HS-PDSCH RSCP
RSCP Range: −116 – −25
Unit: dB
HS-PDSCH Float HSDPA HS-PDSCH C/I
C/I Range: −30 – 40
Unit: dB

RLC block error rate (RLCBLER)

Event ID RLCBLER
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA
Record state Call connection, attach, and packet active state
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA

Parameters for GSM |Top|

Name Type Description
BLER Float BLER DL
This information is only recorded with (E)GPRS.
Range: 0 – 100
Unit: %
#RLC blocks Integer RLC blocks total
The total number of received RLC layer PDUs.
#RLC errors Integer RLC blocks erroneous
The number of erroneously received RLC layer PDUs.

Parameters for UMTS FDD |Top|

Name Type Description
BLER Float BLER DL
The average RLC layer block error rate is calculated from the transport
blocks.
Range: 0 – 100
Unit: %
#TrCh blocks Integer TrCh blocks received total
The total number of received transport blocks.
#TrCh errors Integer TrCh blocks received erroneously total
The number of erroneously received transport blocks.
TrChs Integer Number of transport channels
#Params/TrCh Integer Number of parameters per transport channel
TrCh ID Integer Transport channel ID
Range: 0 – 32
BLER/TrCh Float BLER per transport channel
The ratio of erroneously received transport blocks to total number of
received transport blocks for the defined transport channel.
Range: 0 – 100
Unit: %
#Blocks/TrCh Integer TrCh blocks received per TrCh
The number of received transport blocks for the defined transport
channel.
#Errors/TrCh Integer TrCh blocks received erroneously per TrCh
The number of erroneously received transport blocks for the defined
transport channel.

Parameters for UMTS TD-SCDMA |Top|

RLC layer throughput (RLCRATE)

Event ID RLCRATE
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD
Record state Always
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM |Parameters for UMTS |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for GSM |Top|

Parameters for UMTS |Top|

Name Type Description
RLC rate UL Integer RLC throughput uplink
The value of this parameter is calculated based on the SDUs that are
successfully transferred through the RLC layer. Missing and erroneous
RLC blocks are excluded from the throughput calculation.
Minimum value: 0
Unit: bit/s
RLC rate DL Integer RLC throughput downlink
The value of this parameter is calculated based on the SDUs that are
successfully transferred through the RLC layer. Missing and erroneous
RLC blocks are excluded from the throughput calculation.
Minimum value: 0
Unit: bit/s
RLC retr. UL Float RLC retransmission rate uplink
Range: 0 – 100
Unit: %
#RBs Integer Number of radio bearers
Params/RB Integer Number of parameters per radio bearer
RB ID Integer Radio bearer ID
Range: 0 – 32
RLC rate UL Integer RLC throughput uplink per radio bearer
Uplink RLC throughput for specified radio bearer.
Minimum value: 0
Unit: bit/s
RLC rate DL Integer RLC throughput downlink per radio bearer
Downlink RLC throughput for specified radio bearer.
Minimum value: 0
Unit: bit/s
RLC retr. UL Float RLC retransmission rate uplink per radio bearer
Range: 0 – 100

Parameters for LTE |Top|

Name Type Description
#Header Integer Number of header parameters
params
RLC DL Integer RLC downlink throughput
bitrate Total downlink RLC throughput is calculated over all radio bearers. The
value of this parameter is calculated based on the SDUs that are
successfully transferred through the RLC layer. Missing and erroneous
RLC blocks are excluded from the throughput calculation.
Minimum value: 0
Unit: bit/s
RLC DL block Integer RLC downlink block rate
rate Total number of correctly or incorrectly received RLC PDUs calculated
from all active radio bearers.
Minimum value: 0
RLC DL Float RLC downlink BLER
BLER Total downlink RLC BLER calculated from all activate radio bearers.
Range: 0 – 100
Unit: %
#RBs Integer Number of radio bearers
Params/RB Integer Number of parameters per radio bearer
RB ID Integer Radio bearer ID
Range: 0 – 34
RLC DL Integer RLC downlink throughput per RB
bitrate/RB The value of this parameter is calculated based on the SDUs that are
successfully transferred through the RLC layer. Missing and erroneous
RLC blocks are excluded from the throughput calculation.
Minimum value: 0
Unit: bit/s
RLC DL block Integer RLC downlink block rate per RB
rate/RB The number of correctly or incorrectly received RLC PDUs from the
defined radio bearer.
Minimum value: 0
RLC DL Float RLC downlink BLER per RB
BLER/RB Range: 0 – 100
Unit: %
RLC layer throughput uplink (RLCRATEU)
Event ID RLCRATEU
Cellular systems LTE FDD,LTE TDD
Record state Always
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for LTE |Top|

Name Type Description
#Header Integer Number of header parameters
params
RLC UL Integer RLC uplink throughput
bitrate Total uplink RLC throughput. The value of this parameter is calculated
based on the SDUs that are successfully transferred through the RLC
layer. Missing and erroneous RLC blocks are excluded from the
throughput calculation.
Minimum value: 0
Unit: bit/s
RLC UL block Integer RLC uplink block rate
rate Total number of correctly or incorrectly transmitted RLC PDUs calculated
from all active radio bearers.
Minimum value: 0
RLC UL retr. Float RLC uplink retransmission rate
Total uplink RLC retransmission rate calculated from all active radio
bearers.
Range: 0 – 100
Unit: %
#RBs Integer Number of radio bearers
Params/RB Integer Number of parameters per radio bearer
RB ID Integer Radio bearer ID
Range: 0 – 34
RLC UL Integer RLC uplink throughput per RB
bitrate/RB The value of this parameter is calculated based on the SDUs that are
successfully transferred through the RLC layer. Missing and erroneous
RLC blocks are excluded from the throughput calculation.
Minimum value: 0
Unit: bit/s
RLC UL block Integer RLC uplink block rate per RB
rate/RB The number of correctly or incorrectly transmitted RLC PDUs from the
defined radio bearer.
Minimum value: 0
RLC UL Float RLC uplink retransmission rate per RB
retr./RB Range: 0 – 100
Unit: %

PDCP layer throughput downlink (PDCPRATED)

Event ID PDCPRATED
Cellular systems LTE FDD,LTE TDD
Record state Always
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for LTE |Top|

Name Type Description
#Header Integer Number of header parameters
params
PDCP DL Integer PDCP downlink throughput
bitrate Total downlink PDCP throughput is calculated over all radio bearers. The
value of this parameter is calculated based on the SDUs that are
successfully transferred through the PDCP layer. Missing and erroneous
PDCP blocks are excluded from the throughput calculation.
Minimum value: 0
Unit: bit/s
PDCP DL Integer PDCP downlink block rate
block rate Total number of correctly or incorrectly received PDCP PDUs calculated
from all active radio bearers.
Minimum value: 0
#RBs Integer Number of radio bearers
Params/RB Integer Number of parameters per radio bearer
RB ID Integer Radio bearer ID
Range: 0 – 34
PDCP DL Integer PDCP downlink throughput per RB
bitrate/RB The value of this parameter is calculated based on the SDUs that are
successfully transferred through the PDCP layer. Missing and erroneous
PDCP blocks are excluded from the throughput calculation.
Minimum value: 0
Unit: bit/s
PDCP DL Integer PDCP downlink block rate per RB
block rate/RB The number of correctly or incorrectly received PDCP PDUs from the
defined radio bearer.
Minimum value: 0
PDCP layer throughput uplink (PDCPRATEU)
Event ID PDCPRATEU
Cellular systems LTE FDD,LTE TDD
Record state Always
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for LTE |Top|

Name Type Description
#Header Integer Number of header parameters
params
PDCP UL Integer PDCP uplink throughput
bitrate Total uplink PDCP throughput. The value of this parameter is calculated
based on the SDUs that are successfully transferred through the PDCP
layer. Missing and erroneous PDCP blocks are excluded from the
throughput calculation.
Minimum value: 0
Unit: bit/s
PDCP UL Integer PDCP uplink block rate
block rate Total number of correctly or incorrectly transmitted PDCP PDUs
calculated from all active radio bearers.
Minimum value: 0
#RBs Integer Number of radio bearers
Params/RB Integer Number of parameters per radio bearer
RB ID Integer Radio bearer ID
Range: 0 – 34
PDCP UL Integer PDCP uplink throughput per RB
bitrate/RB The value of this parameter is calculated based on the SDUs that are
successfully transferred through the PDCP layer. Missing and erroneous
PDCP blocks are excluded from the throughput calculation.
Minimum value: 0
Unit: bit/s
PDCP UL Integer PDCP uplink block rate per RB
block rate/RB The number of correctly or incorrectly transmitted PDCP PDUs from the
defined radio bearer.
Minimum value: 0
LLC layer throughput (LLCRATE)
Event ID LLCRATE
Cellular systems GSM,GAN WLAN
Record state Attach and packet active state
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor
|Parameters |Parameters for GSM |Parameters for GAN WLAN |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
21 = GAN WLAN

Parameters for GSM |Top|

Parameters for GAN WLAN |Top|

Name Type Description
LLC rate UL Integer LLC throughput uplink
The value of this parameter is calculated based on the SDUs
that are stransferred through the LLC layer. Missing and
erroneous LLC blocks are excluded from the throughput
calculation.
Minimum value: 0
Unit: bit/s
LLC rate DL Integer LLC throughput downlink
The value of this parameter is calculated based on the SDUs
that are successfully transferred through the LLC layer. Missing
and erroneous LLC blocks are excluded from the throughput
calculation.
Minimum value: 0
Unit: bit/s
LLC retrans. UL Float LLC retransmission rate uplink
Range: 0 – 100
Unit: %
Routing area update attempt (RUA)
Event ID RUA
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,GAN WLAN
Record state Attach state
Description Recorded based on GMM signaling when routing area update is attempted. This
measurement event begins the routing area update attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Routing area update Context Routing area update context ID
context ID
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
21 = GAN WLAN
RAU type Integer Routing area update type
1 = Routing area update
2 = Combined routing area and location area update
3 = Combined routing area and location area update with IMSI
attach
4 = Periodic update

Routing area update successful (RUS)

Event ID RUS
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,GAN WLAN
Record state Routing area update attempt state
Description Recorded based on GMM signaling when routing area update is successful. This
measurement event terminates the routing area update attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Routing area update Context Routing area update context ID
context ID
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
21 = GAN WLAN
Old RAC Integer Old RAC
Routing area code of the old cell.
Range: 0 – 255
Old LAC Integer Old location area code
Location area code of the old cell.
Range: 0 – 65535
RAC Integer Routing area code
LAC Integer Location area code
Range: 0 – 65535

Routing area update fail (RUF)

Event ID RUF
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,GAN WLAN
Record state Routing area update attempt state
Description Recorded based on GMM signaling when routing area update is successful. This
measurement event terminates the routing area update attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Routing area update Context Routing area update context ID
context ID
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
21 = GAN WLAN
Att. RAC Integer Attempted RAC
Attempted routing area code Routing area code of the
attempted cell.
Range: 0 – 255
Att. LAC Integer Attempted LAC
Attempted location area code Location area code of the
attempted cell.
Range: 0 – 65535
GMM cause Integer Routing area update failure cause
With GSM and UMTS see 3GPP TS 124.008 subclause
10.5.5.14. With LTE see 3GPP TS 124.301 9.9.3.9.
2 = IMSI unknown in HLR/HSS
3 = Illegal MS
5 = IMEI not accepted
6 = Illegal ME
7 = GPRS/EPS services not allowed
8 = GPRS/EPS services and non-GPRS/non-EPS services not
allowed
9 = MS identity cannot be derived by the network
10 = Implicitly detached
11 = PLMN not allowed
12 = Location/tracking area not allowed
13 = Roaming not allowed in this location area
14 = GPRS/EPS services not allowed in this PLMN
15 = No suitable cells in location/tracking area
16 = MSC temporarily not reachable
17 = Network failure
18 = CS domain not available
LTE only.
19 = ESM failure
LTE only.
20 = MAC failure
21 = Synch failure
22 = Congestion
23 = MS security capabilities mismatch
24 = Security mode rejected, unspecified
25 = Not authorized for this CSG
LTE only.
26 = Non-EPS authentication unacceptable
LTE only.
39 = CS domain temporarily not available
LTE only.
40 = No PDP/EPS bearer context activated
95 = Semantically incorrect message
96 = Invalid mandatory information
97 = Message type non-existent or not implemented
98 = Message type not compatible with the protocol state
99 = Information element non-existent or not implemented
100 = Conditional IE error
101 = Message not compatible with the protocol state
111 = Protocol error, unspecified
1000 = Radio switch off

Tracking area update attempt (TUA)

Event ID TUA
Cellular systems LTE FDD,LTE TDD
Record state Idle
Description Recorded based on EMM signaling when tracking area update is attempted. For more
information about the tracking area update procedure, see 3GPP TS 124.301 subclause
5.5.3. This measurement event begins the tracking area update attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Tracking area update successful (TUS)

Event ID TUS
Cellular systems LTE FDD,LTE TDD
Record state Tracking area update attempt state
Description Recorded based on EMM signaling when tracking area update is successful. For more
information about the tracking area update procedure, see 3GPP TS 124.301 subclause
5.5.3. This measurement event terminates the tracking area update attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Tracking area Context Tracking area update context ID
update context
ID
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
#TACs Integer Number of tracking area identities
#Params/TAC Integer Number of parameters per tracking area identity
MCC Integer Mobile country code
See ITU-T recommendation E.212.
Range: 0 – 999
MNC Integer Mobile network code
Range: 0 – 999
TAC Integer Tracking area code
The tracking area code in the tracking area identity list. See 3GPP TS
124.301 subclause 9.9.3.33.
Range: 0 – 65535

Tracking area update fail (TUF)

Event ID TUF
Cellular systems LTE FDD,LTE TDD
Record state Tracking area update attempt state
Description Recorded based on EMM signaling when tracking area update is successful. For more
information about the tracking area update procedure, see 3GPP TS 124.301 subclause
5.5.3. This measurement event terminates the routing area update attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Tracking area update Context Tracking area update context ID
context ID
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
EMM cause Integer Tracking area update failure cause
Tracking area update rejection events see 3GPP TS 24.301
subclause 8.2.28.
2 = IMSI unknown in HLR/HSS
3 = Illegal MS
5 = IMEI not accepted
6 = Illegal ME
7 = GPRS/EPS services not allowed
8 = GPRS/EPS services and non-GPRS/non-EPS services not
allowed
9 = MS identity cannot be derived by the network
10 = Implicitly detached
11 = PLMN not allowed
12 = Location/tracking area not allowed
13 = Roaming not allowed in this location area
14 = GPRS/EPS services not allowed in this PLMN
15 = No suitable cells in location/tracking area
16 = MSC temporarily not reachable
17 = Network failure
18 = CS domain not available
LTE only.
19 = ESM failure
LTE only.
20 = MAC failure
21 = Synch failure
22 = Congestion
23 = MS security capabilities mismatch
24 = Security mode rejected, unspecified
25 = Not authorized for this CSG
LTE only.
26 = Non-EPS authentication unacceptable
LTE only.
39 = CS domain temporarily not available
LTE only.
40 = No PDP/EPS bearer context activated
95 = Semantically incorrect message
96 = Invalid mandatory information
97 = Message type non-existent or not implemented
98 = Message type not compatible with the protocol state
99 = Information element non-existent or not implemented
100 = Conditional IE error
101 = Message not compatible with the protocol state
111 = Protocol error, unspecified
1000 = Radio switch off
TBF information (TBFI)
Event ID TBFI
Cellular systems GSM
Record state Attach and packet active state
Description Recorded when TBF allocation is modified. This information can be based on RLC/MAC
and layer3 signaling, or on trace messages received from the device.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
#Header params Integer Number of header parameters
TLLI String Temporary logical link identity
#Params/TBF Integer Number of parameters per TBF
#UL TBFs Integer Number of uplink TBFs
TFI Integer TFI
Temporary flow identity.
Range: 0 – 31
RLC win. Integer RLC window size
RLC layer send buffer size.
Range: 64 – 1024
#DL TBFs Integer Number of downlink TBFs
TFI Integer TFI
Temporary flow identity.
Range: 0 – 31
RLC win. Integer RLC window size
RLC layer send buffer size.
Range: 64 – 1024

TBF uplink establishment (TBFULE)

Event ID TBFULE
Cellular systems GSM
Record state Attach and packet active state
Description Recorded after TBF uplink establishment attempt. The recorded information is based on
RLC/MAC and layer3 signaling messages.
Tools Nemo Outdoor
|Parameters |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
UL TBF est. cause Integer Uplink TBF establishment cause
1 = One phase access in channel request
2 = Single block or two phase access in channel request
11 = One phase access in packet channel request
12 = Two phase access in packet channel request
13 = Page response in packet channel request
14 = Cell update in packet channel request
15 = MM procedure in packet channel request
16 = Single block without TBF establishment in packet channel
request
17 = One phase access in RLC unack mode in packet channel
request
21 = One phase access in EGPRS packet channel request
22 = Two phase access in EGPRS packet channel request
23 = Signalling in EGPRS packet channel request
24 = One phase access in RLC unack mode in EGPRS packet
channel request
31 = Channel request in packet downlink ack/nack
32 = Channel request in EGPRS packet downlink ack/nack
51 = User data in DTM request
52 = Page response in DTM request
53 = Cell update in DTM request
54 = MM procedure in DTM request
UL TBF est. type Integer Uplink TBF establishment type
1 = One phase access
2 = Two phase access
3 = Single block or multi block access
4 = (EGPRS) Packet downlink ACK/NACK channel request
5 = DTM request
UL TBF est. status Integer Uplink TBF establishment status
1 = Succeeded
2 = Failed
3 = Rejected
4 = Aborted (e.g. Downlink TBF assignment)
#UL TBF est. req Integer Uplink TBF establishment request count

MAC layer info (MACI)

Event ID MACI
Cellular systems UMTS FDD,LTE FDD,LTE TDD
Record state Always
Description Recorded when L1/MAC layer information changes.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for UMTS FDD |Top|

Name Type Description
#Serving cells Integer Number of serving cells
#Params/serving Integer Number of parameters per serving cell
cell
Cell type Integer HSDPA cell type
2 = Secondary
Cell state Integer HSDPA cell state
Defines if the cell is activated or deactivated in the physical/MAC layer.
0 = Deactive
1 = Active

Parameters for LTE |Top|

Name Type Description
#Serving cells Integer Number of serving cells
#Params/serving Integer Number of parameters per serving cell
cell
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell index.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4
Cell state Integer SCell state
Defines if the cell is activated or deactivated in the physical/MAC layer.
0 = Deactive
1 = Active

MAC layer throughput (MACRATE)

Event ID MACRATE
Cellular systems UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,WiMAX
Record state Always
Description Recorded when measurement sample is received from the device and the received
sample differs from the previous result. This UMTS measurement event is recorded
simultaneously with the PLAID measurement event and only during HSDPA session.
Separate measurement event is logged for each serving cell with LTE.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |Parameters for LTE |Parameters for WiMAX |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
25 = WiMAX

Parameters for UMTS FDD |Top|

Name Type Description
#Header params Integer Number of header parameters
#TrCh Integer Number of transport channels
#Params/TrCh Integer Number of parameters per transport channel
TrCh ID Integer Transport channel ID
Range: 0 – 32
TrCh type Integer Transport channel type
3 = HS-DSCH
MAC-hs Integer HSDPA MAC-hs throughput
bitrate The value of this parameter is calculated based on the SDUs that are
successfully received through the MAC-hs layer. Missing and erroneous
MAC-hs blocks are excluded from the throughput calculation. When
exact MAC-hs SDUs are not available the approximation of the MAC-hs
throughput is calculated based on transport block sizes ignoring
incorrect or duplicated transport blocks. This causes a minor error
between reported throughput and real MAC-hs throughput but it still
provides a very good approximation of the real MAC-hs throughput.
Minimum value: 0
Unit: bit/s
MAC-hs block Integer HSDPA MAC-hs block rate
rate The total number of MAC-hs PDUs received during the reporting
interval.
MAC-hs 1st Float HSDPA MAC-hs 1st retransmission rate
retr. The ratio of MAC-hs PDUs retransmitted after the first transmission
attempt.
Range: 0 – 100
Unit: %
MAC-hs 2nd Float HSDPA MAC-hs 2nd retransmission rate
retr. The ratio of MAC-hs PDUs retransmitted after the second transmission
attempt.
Range: 0 – 100
Unit: %
MAC-hs 3rd+ Float HSDPA MAC-hs 3rd+ retransmission rate
retr. The ratio of MAC-hs PDUs retransmitted after the third or later
transmission attempt.
Range: 0 – 100
Unit: %
MAC-hs Float HSDPA MAC-hs redundant retransmission rate
redundant retr. The ratio of MAC-hs PDUs that has already been correctly received and
has unnecessarily been retransmitted (duplicated transmission). This
happens when the ACK message sent by the mobile is decoded or
received incorrectly, or not received at all, by the the base station.
Range: 0 – 100
Unit: %
Cell type Integer HSDPA cell type
1 = Primary
2 = Secondary

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
#Header params Integer Number of header parameters
#TrCh Integer Number of transport channels
#Params/TrCh Integer Number of parameters per transport channel
TrCh ID Integer Transport channel ID
Range: 0 – 32
TrCh type Integer Transport channel type
3 = HS-DSCH
MAC-hs Integer HSDPA MAC-hs throughput
bitrate The value of this parameter is calculated based on the SDUs that are
successfully received through the MAC-hs layer. Missing and erroneous
MAC-hs blocks are excluded from the throughput calculation. When
exact MAC-hs SDUs are not available the approximation of the MAC-hs
throughput is calculated based on transport block sizes ignoring
incorrect or duplicated transport blocks. This causes a minor error
between reported throughput and real MAC-hs throughput but it still
provides a very good approximation of the real MAC-hs throughput.
Minimum value: 0
Unit: bit/s
MAC-hs block Integer HSDPA MAC-hs block rate
rate The total number of MAC-hs PDUs received during the reporting
interval.
MAC-hs 1st Float HSDPA MAC-hs 1st retransmission rate
retr. Number of blocks retransmitted after the first transmission attempt.
Range: 0 – 100
Unit: %
MAC-hs 2nd Float HSDPA MAC-hs 2nd retransmission rate
retr. Number of blocks retransmitted after the second transmission attempt.
Range: 0 – 100
Unit: %
MAC-hs 3rd+ Float HSDPA MAC-hs 3rd+ retransmission rate
retr. Number of blocks retransmitted after the third or later transmission
attempt.
Range: 0 – 100
Unit: %

Parameters for LTE |Top|

Name Type Description
MAC DL bitrate Integer MAC downlink throughput
MAC throughput that is calculated from succesfully received SDUs.
With the devices that do not support MAC throughput parameter the
estimation of MAC throughput is calculated from succesfully received
transport blocks. The estimation is a little bit higher than the real MAC
throughput since it includes MAC header, MAC control data, and
padding to the throughput.
Minimum value: 0
Unit: bit/s
MAC DL block Integer MAC downlink block rate
rate Number of succesfully received transport blocks excluding redundant
TBs.
Minimum value: 0
MAC DL BLER Float MAC downlink BLER
The ratio of erroneously received transport blocks to all received
transport blocks.
Range: 0 – 100
Unit: %
MAC DL BLER Float MAC downlink BLER 1st
1st The ratio of 1st retransmissions to all received TBs.
Range: 0 – 100
Unit: %
MAC DL BLER Float MAC downlink BLER 2nd
2nd The ratio of 2nd retransmissions to all received TBs.
Range: 0 – 100
Unit: %
MAC DL BLER Float MAC downlink BLER 3rd+
3rd+ The ratio of 3rd or more retransmission to all received TBs.
Range: 0 – 100
Unit: %
MAC DL residual Float MAC downlink residual BLER
BLER Defines the ratio of transport blocks that HARQ was not able to correct
and RLC layer has to fix. The ratio of HARQ failed transport blocks to
new transmissions.
Range: 0 – 100
Unit: %
MAC DL new Integer MAC downlink new blocks
The number of received new (1st attempt) transport blocks since the
last report.
Minimum value: 0
MAC DL Float MAC downlink redundant retransmission
redundant retr. The ratio of transport blocks that were already correctly received and
have unnecessarily been retransmitted (duplicated transmission). This
happens when the ACK message sent by the mobile is decoded or
received incorrectly, or not received at all, by the the base station.
Range: 0 – 100
Unit: %
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell index.
0 = PCell
Primary serving cell.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4

Parameters for WiMAX |Top|

Name Type Description
#MAC header Integer Number of header parameters
params
MAC rate UL Integer WiMAX MAC throughput uplink
Minimum value: 0
Unit: bit/s
MAC rate DL Integer WiMAX MAC throughput downlink
Minimum value: 0
Unit: bit/s
MAC packet Integer WiMAX MAC packet rate uplink
rate UL
MAC packet Integer WiMAX MAC packet rate downlink
rate DL

MAC layer throughput uplink (MACRATEU)

Event ID MACRATEU
Cellular systems LTE FDD,LTE TDD
Record state Always
Description Recorded when measurement sample is received from the device.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for LTE |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD

Parameters for LTE |Top|

Name Type Description
MAC UL bitrate Integer MAC uplink throughput
The throughput that is calculated from succesfully transmitted
MAC SDUs. With the devices that do not support MAC
throughput parameter the estimation of MAC throughput is
calculated from succesfully delivered transport blocks. The
estimation is a little bit higher than the real MAC throughput
since it includes MAC headers, MAC control data, and padding.
Minimum value: 0
Unit: bit/s
MAC UL block rate Integer MAC uplink block rate
The number of successfully transmitted transport blocks since
previous report.
Minimum value: 0
MAC UL retr. Float MAC uplink retransmission rate
The ratio of retransmitted transport blocks to all transmitted
TBs.
Range: 0 – 100
Unit: %
MAC UL retr. 1st Float MAC uplink retransmission rate 1st
The ratio of 1st retransmissions to all transmitted TBs.
Range: 0 – 100
Unit: %
MAC UL retr. 2nd Float MAC uplink retransmission rate 2nd
The ratio of 2nd retransmissions to all transmitted TBs.
Range: 0 – 100
Unit: %
MAC UL retr. 3rd+ Float MAC uplink retransmission rate 3rd+
The ratio of 3rd or more retransmissions to all transmitted TBs.
Range: 0 – 100
Unit: %
MAC UL residual BLER Float MAC uplink residual BLER
Defines the ratio of transport blocks that HARQ was not able to
correct and RLC layer have to fix. The ratio of HARQ failed
transport blocksk to new transmissions.
Range: 0 – 100
Unit: %
MAC UL new Integer MAC uplink new blocks
The number of transmitted new (1st attempt) transport blocks
since the last report.
Minimum value: 0
Cell type Integer Serving cell type
The value of this parameter is the same as the serving cell
index.
0 = PCell
Primary serving cell.
1 = SCell 1
2 = SCell 2
3 = SCell 3
4 = SCell 4
MAC layer block error rate (MACBLER)
Event ID MACBLER
Cellular systems UMTS FDD,UMTS TD-SCDMA,WiMAX
Record state Always
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result. This UMTS measurement event is recorded
simultaneously with the PLAID measurement event and only during HSDPA session.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for UMTS FDD |Parameters for UMTS TD-SCDMA |Parameters for WiMAX |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD
6 = UMTS TD-SCDMA
25 = WiMAX

Parameters for UMTS FDD |Top|

Name Type Description
#Header params Integer Number of header parameters
#TrCh Integer Number of transport channels
#Params/TrCh Integer Number of parameters per transport channel
TrCh ID Integer Transport channel ID
Transport channel ID is always n/a for HS-DSCH transport channel
type.
Range: 0 – 32
TrCh type Integer Transport channel type
3 = HS-DSCH
#ACK/NACK Integer HSDPA MAC-hs ACK/NACK count
The total number of ACK and NACK status messages sent to the uplink
by MAC-hs layer.
MAC-hs BLER Float HSDPA MAC-hs block error rate
The ratio of erroneously received MAC-hs PDUs to all received MAC-hs
PDUs.
Range: 0 – 100
Unit: %
#Data blocks Integer HSDPA MAC-hs data blocks
The total number of data blocks transferred during the reporting period.
MAC-hs Float HSDPA MAC-hs residual block error rate
residual BLER The ratio of transport blocks that have not been fixed by HARQ (in the
MAC-hs layer) to all 'new data' indicated transport blocks (= first
attempts).
Range: 0 – 100
Unit: %
Cell type Integer HSDPA cell type
1 = Primary
2 = Secondary

Parameters for UMTS TD-SCDMA |Top|

Name Type Description
#Header params Integer Number of header parameters
#TrCh Integer Number of transport channels
#Params/TrCh Integer Number of parameters per transport channel
TrCh ID Integer Transport channel ID
Transport channel ID is always n/a for HS-DSCH transport channel
type.
Range: 0 – 32
TrCh type Integer Transport channel type
3 = HS-DSCH
#ACK/NACK Integer HSDPA MAC-hs ACK/NACK count
The total number of ACK and NACK status messages sent to the uplink
by MAC-hs layer.
MAC-hs BLER Float HSDPA MAC-hs block error rate
The ratio of erroneously received MAC-hs PDUs to all received MAC-hs
PDUs.
Range: 0 – 100
Unit: %
#Data blocks Integer HSDPA MAC-hs data blocks
The total number of data blocks transferred during the reporting period.
MAC-hs Float HSDPA MAC-hs residual block error rate
residual BLER The ratio of transport blocks that have not been fixed by HARQ (in the
MAC-hs layer) to all 'new data' indicated transport blocks (= first
attempts).
Range: 0 – 100
Unit: %

Parameters for WiMAX |Top|

Name Type Description
PER Float WiMAX PER
Range: 0 – 100
Unit: %

AMR information (AMRI)

Event ID AMRI
Cellular systems GSM,GAN WLAN
Record state Call connection state
Description Recorded when AMR information is modified based on the trace messages of the device.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM |Parameters for GAN WLAN |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
21 = GAN WLAN

Parameters for GSM |Top|

Name Type Description
AMR init. mode Integer AMR initial codec mode
0 = NB 4.75
1 = NB 5.15
2 = NB 5.9
3 = NB 6.7
4 = NB 7.4
5 = NB 7.95
6 = NB 10.2
7 = NB 12.2
100 = WB 6.6
101 = WB 8.85
102 = WB 12.65
103 = WB 14.25
104 = WB 15.85
105 = WB 18.25
106 = WB 19.85
107 = WB 23.05
108 = WB 23.85
AMR ICMI Integer AMR initial codec mode indicator
0 = Implicit rule
1 = RATSCCH/L3
AMR TH1 Float AMR first threshold
Range: 0 – 32
Unit: dB
AMR HYS1 Float AMR first hysteresis
Range: 0 – 8
Unit: dB
AMR TH2 Float AMR second threshold
Range: 0 – 32
Unit: dB
AMR HYS2 Float AMR second hysteresis
Range: 0 – 8
Unit: dB
AMR TH3 Float AMR third threshold
Range: 0 – 32
Unit: dB
AMR HYS3 Float AMR third hysteresis
Range: 0 – 8
Unit: dB
#Active codecs Integer AMR number of active codecs
AMR codecs Integer AMR active codecs
0 = NB 4.75
1 = NB 5.15
2 = NB 5.9
3 = NB 6.7
4 = NB 7.4
5 = NB 7.95
6 = NB 10.2
7 = NB 12.2
100 = WB 6.6
101 = WB 8.85
102 = WB 12.65
103 = WB 14.25
104 = WB 15.85
105 = WB 18.25
106 = WB 19.85
107 = WB 23.05
108 = WB 23.85

Parameters for GAN WLAN |Top|

Name Type Description
AMR init. mode Integer AMR initial codec mode
0 = NB 4.75
1 = NB 5.15
2 = NB 5.9
3 = NB 6.7
4 = NB 7.4
5 = NB 7.95
6 = NB 10.2
7 = NB 12.2
100 = WB 6.6
101 = WB 8.85
102 = WB 12.65
103 = WB 14.25
104 = WB 15.85
105 = WB 18.25
106 = WB 19.85
107 = WB 23.05
108 = WB 23.85
AMR ICMI Integer AMR initial codec mode indicator
0 = Implicit rule
1 = RATSCCH/L3
AMR TH1 Float AMR first threshold
Range: 0 – 50
Unit: %
AMR HYS1 Float AMR first hysteresis
Range: 0 – 17
Unit: %
AMR TH2 Float AMR second threshold
Range: 0 – 50
Unit: %
AMR HYS2 Float AMR second hysteresis
Range: 0 – 17
Unit: %
AMR TH3 Float AMR third threshold
Range: 0 – 50
Unit: %
AMR HYS3 Float AMR third hysteresis
Range: 0 – 17
Unit: %
#Active codecs Integer AMR number of active codecs
AMR codecs Integer AMR active codecs
0 = NB 4.75
1 = NB 5.15
2 = NB 5.9
3 = NB 6.7
4 = NB 7.4
5 = NB 7.95
6 = NB 10.2
7 = NB 12.2
100 = WB 6.6
101 = WB 8.85
102 = WB 12.65
103 = WB 14.25
104 = WB 15.85
105 = WB 18.25
106 = WB 19.85
107 = WB 23.05
108 = WB 23.85

AMR status (AMRS)

Event ID AMRS
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,GAN WLAN
Record state Call connection state
Description Recorded when AMR information is modified based on the trace messages of the device.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for GSM |Parameters for UMTS FDD and UMTS TD-SCDMA |Parameters for LTE |Parameters for GAN WLAN |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
21 = GAN WLAN

Parameters for GSM |Top|

Parameters for UMTS FDD and UMTS TD-SCDMA |Top|

Parameters for LTE |Top|

Name Type Description
AMR mode UL Integer AMR mode uplink
Current UL mode within mode set.
0 = NB 4.75
1 = NB 5.15
2 = NB 5.9
3 = NB 6.7
4 = NB 7.4
5 = NB 7.95
6 = NB 10.2
7 = NB 12.2
100 = WB 6.6
101 = WB 8.85
102 = WB 12.65
103 = WB 14.25
104 = WB 15.85
105 = WB 18.25
106 = WB 19.85
107 = WB 23.05
108 = WB 23.85
184 = EVS primary 5.9 (VBR)
185 = EVS primary 7.2
186 = EVS primary 8.0
187 = EVS primary 9.6
188 = EVS primary 13.2
189 = EVS primary 16.4
190 = EVS primary 24.4
191 = EVS primary 32
192 = EVS primary 48
193 = EVS primary 64
194 = EVS primary 96
195 = EVS primary 128
200 = EVS NB 5.9 (VBR)
201 = EVS NB 7.2
202 = EVS NB 8.0
203 = EVS NB 9.6
204 = EVS NB 13.2
205 = EVS NB 16.4
206 = EVS NB 24.4
216 = EVS AMR-WB IO 6.6
217 = EVS AMR-WB IO 8.85
218 = EVS AMR-WB IO 12.65
219 = EVS AMR-WB IO 14.25
220 = EVS AMR-WB IO 15.85
221 = EVS AMR-WB IO 18.25
222 = EVS AMR-WB IO 19.85
223 = EVS AMR-WB IO 23.05
224 = EVS AMR-WB IO 23.85
232 = EVS WB 5.9 (VBR)
233 = EVS WB 7.2
234 = EVS WB 8.0
235 = EVS WB 9.6
236 = EVS WB 13.2
237 = EVS WB 16.4
238 = EVS WB 24.4
239 = EVS WB 32
240 = EVS WB 48
241 = EVS WB 64
242 = EVS WB 96
243 = EVS WB 128
251 = EVS SWB 9.6
252 = EVS SWB 13.2
253 = EVS SWB 16.4
254 = EVS SWB 24.4
255 = EVS SWB 32
256 = EVS SWB 48
257 = EVS SWB 64
258 = EVS SWB 96
259 = EVS SWB 128
269 = EVS FB 16.4
270 = EVS FB 24.4
271 = EVS FB 32
272 = EVS FB 48
273 = EVS FB 64
274 = EVS FB 96
275 = EVS FB 128
AMR mode DL Integer AMR mode downlink
Current DL mode within mode set.
0 = NB 4.75
1 = NB 5.15
2 = NB 5.9
3 = NB 6.7
4 = NB 7.4
5 = NB 7.95
6 = NB 10.2
7 = NB 12.2
100 = WB 6.6
101 = WB 8.85
102 = WB 12.65
103 = WB 14.25
104 = WB 15.85
105 = WB 18.25
106 = WB 19.85
107 = WB 23.05
108 = WB 23.85
184 = EVS primary 5.9 (VBR)
185 = EVS primary 7.2
186 = EVS primary 8.0
187 = EVS primary 9.6
188 = EVS primary 13.2
189 = EVS primary 16.4
190 = EVS primary 24.4
191 = EVS primary 32
192 = EVS primary 48
193 = EVS primary 64
194 = EVS primary 96
195 = EVS primary 128
200 = EVS NB 5.9 (VBR)
201 = EVS NB 7.2
202 = EVS NB 8.0
203 = EVS NB 9.6
204 = EVS NB 13.2
205 = EVS NB 16.4
206 = EVS NB 24.4
216 = EVS AMR-WB IO 6.6
217 = EVS AMR-WB IO 8.85
218 = EVS AMR-WB IO 12.65
219 = EVS AMR-WB IO 14.25
220 = EVS AMR-WB IO 15.85
221 = EVS AMR-WB IO 18.25
222 = EVS AMR-WB IO 19.85
223 = EVS AMR-WB IO 23.05
224 = EVS AMR-WB IO 23.85
232 = EVS WB 5.9 (VBR)
233 = EVS WB 7.2
234 = EVS WB 8.0
235 = EVS WB 9.6
236 = EVS WB 13.2
237 = EVS WB 16.4
238 = EVS WB 24.4
239 = EVS WB 32
240 = EVS WB 48
241 = EVS WB 64
242 = EVS WB 96
243 = EVS WB 128
251 = EVS SWB 9.6
252 = EVS SWB 13.2
253 = EVS SWB 16.4
254 = EVS SWB 24.4
255 = EVS SWB 32
256 = EVS SWB 48
257 = EVS SWB 64
258 = EVS SWB 96
259 = EVS SWB 128
269 = EVS FB 16.4
270 = EVS FB 24.4
271 = EVS FB 32
272 = EVS FB 48
273 = EVS FB 64
274 = EVS FB 96
275 = EVS FB 128
CMR UL Integer AMR channel mode request uplink
Received maximum allowed uplink channel mode. This is also
known as channel mode command. Currently this is only logged
with EVS. See more 3GPP TS 126.445 subclause A.2.2.1.1.
184 = EVS primary 5.9 (VBR)
185 = EVS primary 7.2
186 = EVS primary 8.0
187 = EVS primary 9.6
188 = EVS primary 13.2
189 = EVS primary 16.4
190 = EVS primary 24.4
191 = EVS primary 32
192 = EVS primary 48
193 = EVS primary 64
194 = EVS primary 96
195 = EVS primary 128
200 = EVS NB 5.9 (VBR)
201 = EVS NB 7.2
202 = EVS NB 8.0
203 = EVS NB 9.6
204 = EVS NB 13.2
205 = EVS NB 16.4
206 = EVS NB 24.4
216 = EVS AMR-WB IO 6.6
217 = EVS AMR-WB IO 8.85
218 = EVS AMR-WB IO 12.65
219 = EVS AMR-WB IO 14.25
220 = EVS AMR-WB IO 15.85
221 = EVS AMR-WB IO 18.25
222 = EVS AMR-WB IO 19.85
223 = EVS AMR-WB IO 23.05
224 = EVS AMR-WB IO 23.85
232 = EVS WB 5.9 (VBR)
233 = EVS WB 7.2
234 = EVS WB 8.0
235 = EVS WB 9.6
236 = EVS WB 13.2
237 = EVS WB 16.4
238 = EVS WB 24.4
239 = EVS WB 32
240 = EVS WB 48
241 = EVS WB 64
242 = EVS WB 96
243 = EVS WB 128
251 = EVS SWB 9.6
252 = EVS SWB 13.2
253 = EVS SWB 16.4
254 = EVS SWB 24.4
255 = EVS SWB 32
256 = EVS SWB 48
257 = EVS SWB 64
258 = EVS SWB 96
259 = EVS SWB 128
269 = EVS FB 16.4
270 = EVS FB 24.4
271 = EVS FB 32
272 = EVS FB 48
273 = EVS FB 64
274 = EVS FB 96
275 = EVS FB 128
CMR DL Integer AMR channel mode request downlink
Transmitted maximum allowed downlink channel mode. This is
also known as channel mode request. Currently this is only
logged with EVS. See more 3GPP TS 126.445 subclause
A.2.2.1.1.
184 = EVS primary 5.9 (VBR)
185 = EVS primary 7.2
186 = EVS primary 8.0
187 = EVS primary 9.6
188 = EVS primary 13.2
189 = EVS primary 16.4
190 = EVS primary 24.4
191 = EVS primary 32
192 = EVS primary 48
193 = EVS primary 64
194 = EVS primary 96
195 = EVS primary 128
200 = EVS NB 5.9 (VBR)
201 = EVS NB 7.2
202 = EVS NB 8.0
203 = EVS NB 9.6
204 = EVS NB 13.2
205 = EVS NB 16.4
206 = EVS NB 24.4
216 = EVS AMR-WB IO 6.6
217 = EVS AMR-WB IO 8.85
218 = EVS AMR-WB IO 12.65
219 = EVS AMR-WB IO 14.25
220 = EVS AMR-WB IO 15.85
221 = EVS AMR-WB IO 18.25
222 = EVS AMR-WB IO 19.85
223 = EVS AMR-WB IO 23.05
224 = EVS AMR-WB IO 23.85
232 = EVS WB 5.9 (VBR)
233 = EVS WB 7.2
234 = EVS WB 8.0
235 = EVS WB 9.6
236 = EVS WB 13.2
237 = EVS WB 16.4
238 = EVS WB 24.4
239 = EVS WB 32
240 = EVS WB 48
241 = EVS WB 64
242 = EVS WB 96
243 = EVS WB 128
251 = EVS SWB 9.6
252 = EVS SWB 13.2
253 = EVS SWB 16.4
254 = EVS SWB 24.4
255 = EVS SWB 32
256 = EVS SWB 48
257 = EVS SWB 64
258 = EVS SWB 96
259 = EVS SWB 128
269 = EVS FB 16.4
270 = EVS FB 24.4
271 = EVS FB 32
272 = EVS FB 48
273 = EVS FB 64
274 = EVS FB 96
275 = EVS FB 128

Parameters for GAN WLAN |Top|

AMR link quality estimate (AMRQ)

Event ID AMRQ
Cellular systems GSM
Record state Call connection state
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
AMR C/I Float AMR link quality estimate
With AMR calls, Link Quality Estimation is reported normally.
Codec mode adaptation is based on a normalized, one-
dimensional measure of the channel quality, called the Quality
Indicator. For reference purposes, the Quality Indicator is
defined as an equivalent carrier to interferer ratio, C/Inorm. The
reference channel conditions for the normalized Quality
Indicator C/Inorm shall be Typical Urban 3 km/h with ideal
frequency hopping at 900 MHz. The corresponding reference
receiver performance is specified as the minimum performance
requirement in 3GPP TS 05.05. The MS and BSSs shall
continuously update the Quality Indicator estimates. The Quality
Indicator may be derived from an estimate of the current carrier
to interferer ratio, C/Iest , or from an estimate of the current raw
bit error rate (BERest). A normalization factor >0 dB may be
applied between the estimate (C/Iest or BERest) and the
Quality Indicator to compensate for higher receiver performance
than the minimum performance requirement in 3GPP TS 05.05.
This normalization factor may be dependent on the C/I at the
antenna connector. The MS shall apply a second normalization
factor to be applied to normalize the estimate with respect to
different channel types, such that, with given C/Inorm and given
codec mode, the FER after channel decoding becomes
independent of the channel type. Based on the LQE estimation
terminal sent the codec mode request to network requesting
correct AMR codecs. Therefore during the AMR calls the LQE
can be used with confidence instead of C/I. See 3GPP TS
145.009 Annex A.
Range: 0 – 40
Unit: dB
Audio quality uplink (AQUL)
Event ID AQUL
Cellular systems All
Record state Call connection state
Description Recorded after voice quality sample is received and the MOS score of the sample is
calculated. This measurement event is recorded only during voice quality measurements.
Tools Nemo Outdoor, Nemo Handy, Nemo Server
|Parameters |Parameters for EMOS, PESQ, 3SQM, POLQA, and Sevana AQuA |Parameters for Telchemy VQmon |

Parameters |Top|
Name Type Description
AQ type UL Integer Audio quality type UL
1 = EMOS
2 = PESQ NB
This is the same as P.862.1 standard.
3 = 3SQM
6 = PESQ WB
This is the same as P.862.2 standard.
7 = POLQA NB
This is the same as ITU-T P.863 standard.
8 = POLQA SWB
This is the same as ITU-T P.863 standard.
9 = Sevana AQuA NB
10 = Sevana AQuA WB
11 = Telchemy VQmon

Parameters for EMOS, PESQ, 3SQM, POLQA, and Sevana AQuA |Top|
Name Type Description
AQ MOS Float Audio quality MOS UL
Audio quality mean Average quality value during one audio
sample.
Range: 0 – 5
Unit: MOS
AQ sample file String Audio quality sample filename UL
AQ ref. file String Audio quality reference sample filename UL
AQ timestamp String Audio quality timestamp UL
Timestamp written when the audio sample analyzed is fully
received. This is needed since it can take a little while before
measurement event is written after voice quality sample is
received.
AQ sample duration UL Integer Audio sample duration UL
Minimum value: 0
Unit: ms
AQ activity UL Float Audio quality speech activity UL
P.862 states that the speech activity in a test signal reference
and the degraded sample used with PESQ should be between
40% and 80%. A low speech activity could cause the PESQ
score to be inaccurate. Although the typical speech activity for a
test signal can vary depending on the language used in the
signal. If the activity ratio is above 85%, it is likely that there is
background noise, etc. If the activity ratio is below 35%, it is
likely that the call is silent or audio information has been lost.
Muting of a signal typically occurs when an error concealment
algorithm at the receiver has insufficient information to replace
missing or corrupted data audio quality mean delay.
Range: 0 – 100
Unit: %
AQ delay UL Float Audio quality delay mean UL
Frame-by-frame delay is the delay measure used in calculating
the PESQ quality score. The delay is calculated for each 16 ms
frame separately. Average, minimum, and maximum delay is
reported. Delay changes are most likely to be caused by jitter
buffer adaptation with VoIP. These adaptations occur when
there is a large change in the jitter on an IP network. As jitter on
the VoIP network increases, the delay measured by PESQ
Tools will typically increase as the jitter buffer grows in size. As
the jitter decreases, the delay measured will typically decrease
as the jitter buffer decreases in size.
Minimum value: 0
Unit: ms
AQ min delay UL Float Audio quality delay min UL
See description for audio quality delay mean -parameter.
Minimum value: 0
Unit: ms
AQ max delay UL Float Audio quality delay max UL
See description for audio quality delay mean -parameter.
Minimum value: 0
Unit: ms
AQ stdev delay UL Float Audio quality delay standard deviation UL
See description for audio quality delay mean -parameter.
Minimum value: 0
Unit: ms
AQ SNR UL Float Audio quality SNR UL
Estimated signal-to-noise ratio. SNR measures the signal
strength of the speech stream relative to background noise, i.e.
the relative loudness of speech compared to noise. The higher
the signal to noise ratio, the better the possible listening quality.
An SNR value of 20 dB can begin to impair conversational
quality. Typical value is 45dB.
Range: 10 – 60
Unit: dB
AQ insertion gain UL Float Audio quality insertion gain UL
Gain calculated for active signal in active periods. dB difference
between active signal of reference and degraded signals
(calculated as of degraded minus of reference signal). Typical
value is 0 dB for digital signal.
Unit: dB
AQ noise gain UL Float Audio quality noise gain UL
Gain calculated for noise in silent periods. dB difference
between mean noise level of reference and degraded signals.
Calculated as of degraded minus of reference signal. Insertion /
noise gain has typical range from -20 dB to 20 dB and typical
value of -6 dB. Gain statistics provide information on the active
speech level difference between the reference and the
degraded signal as well as on the amount of background noise
in the degraded signal. For example, if the system being tested
introduces background noise, the PESQ scores for this system
will be lower than those of systems that do not introduce noise.
The value of the parameter "noise gain" indicates the presence
of background noise, making it unnecessary to listen to the
samples in order to find out the reason for the low score.
Unit: dB

Parameters for Telchemy VQmon |Top|

Name Type Description
MOS-LQ UL Float Audio quality MOS-LQ UL
Estimated listening quality MOS is calculated from the listening
quality R-factor that ignores the effect of delay and recency. The
value should be comparable with PESQ score.
Range: 0 – 5
Unit: MOS
MOS-CQ UL Float Audio quality MOS-CQ UL
Estimated conversation quality MOS is calculated from the
conversation quality R-factor.
Range: 0 – 5
Unit: MOS
R-LQ UL Float Audio quality R-factor LQ UL
Listening quality R-factor is calculated from E-model by ignoring
the effect of delay and recency.
Range: 0 – 177
R-CQ UL Float Audio quality R-factor CQ UL
Conversation quality R-factor is calculated including delay and
recency to the result.
Range: 0 – 177

Audio quality downlink (AQDL)

Event ID AQDL
Cellular systems All
Record state Call connection state
Description Recorded after voice quality sample is received and the MOS score of the sample is
calculated. This measurement event is recorded only during voice quality measurements.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for EMOS, PESQ, 3SQM, and POLQA |Parameters for Streaming Quality |Parameters for NiQA-DSP-LQ |Parameters for
Telchemy VQmon |

Parameters for EMOS, PESQ, 3SQM, and POLQA |Top|

Name Type Description
AQ MOS Float Audio quality MOS DL
Average quality value during one audio sample.
Range: 0 – 5
Unit: MOS
AQ sample file String Audio quality sample filename DL
Name of the audio sample file stored on disk during
measurement. Empty if the file is not saved.
AQ ref. file String Audio quality reference sample filename DL
AQ timestamp String Audio quality timestamp DL
Timestamp written when the audio sample analyzed is fully
received. This is needed since it can take a little while before
AQDL event is written after voice quality sample is received.
AQ sample duration Integer Audio quality sample duration DL
Minimum value: 0
Unit: ms
AQ activity Float Audio quality speech activity DL
P.862 states that the speech activity in a test signal reference
and the degraded sample used with PESQ should be between
40% and 80%. A low speech activity could cause the PESQ
score to be inaccurate. Although the typical speech activity for a
test signal can vary depending on the language used in the
signal. If the activity ratio is above 85%, it is likely that there is
background noise, etc. If the activity ratio is below 35%, it is
likely that the call is silent or audio information has been lost.
Muting of a signal typically occurs when an error concealment
algorithm at the receiver has insufficient information to replace
missing or corrupted data audio quality mean delay.
Range: 0 – 100
Unit: %
AQ delay Float Audio quality delay mean DL
Frame-by-frame delay is the delay measure used in calculating
the PESQ quality score. The delay is calculated for each 16 ms
frame separately. Average, minimum, and maximum delay is
reported. Delay changes are most likely to be caused by jitter
buffer adaptation with VoIP. These adaptations occur when
there is a large change in the jitter on an IP network. As jitter on
the VoIP network increases, the delay measured by PESQ
Tools will typically increase as the jitter buffer grows in size. As
the jitter decreases, the delay measured will typically decrease
as the jitter buffer decreases in size.
Minimum value: 0
Unit: ms
AQ min delay Float Audio quality delay min DL
See description for audio quality delay mean -parameter.
Minimum value: 0
Unit: ms
AQ max delay Float Audio quality delay max DL
See description for audio quality delay mean -parameter.
Minimum value: 0
Unit: ms
AQ stdev delay Float Audio quality delay standard deviation DL
See description for audio quality delay mean -parameter.
Minimum value: 0
Unit: ms
AQ SNR Float Audio quality SNR DL
Estimated signal-to-noise ratio. SNR measures the signal
strength of the speech stream relative to background noise, i.e.
the relative loudness of speech compared to noise. The higher
the signal to noise ratio, the better the possible listening quality.
An SNR value of 20 dB can begin to impair conversational
quality. Typical value is 45dB.
Range: 10 – 60
Unit: dB
AQ insertion gain Float Audio quality insertion gain DL
Gain calculated for active signal in active periods. dB difference
between active signal of reference and degraded signals
(calculated as of degraded minus of reference signal). Typical
value is 0 dB for digital signal.
Unit: dB
AQ noise gain Float Audio quality noise gain DL
Gain calculated for noise in silent periods. dB difference
between mean noise level of reference and degraded signals.
Calculated as of degraded minus of reference signal. Insertion /
noise gain has typical range from -20 dB to 20 dB and typical
value of -6 dB. Gain statistics provide information on the active
speech level difference between the reference and the
degraded signal as well as on the amount of background noise
in the degraded signal. For example, if the system being tested
introduces background noise, the PESQ scores for this system
will be lower than those of systems that do not introduce noise.
The value of the parameter "noise gain" indicates the presence
of background noise, making it unnecessary to listen to the
samples in order to find out the reason for the low score.
Unit: dB

Parameters for Streaming Quality |Top|

Name Type Description
AQ MOS streaming Float Audio quality MOS streaming DL
Average quality value during one audio sample.
Range: 1 – 5
Unit: MOS

Parameters for NiQA-DSP-LQ |Top|

Name Type Description
AQ MOS DL Float Audio quality MOS DL (Nemo Handy only)
Average quality value during one audio sample.
Range: 0 – 5
Unit: MOS

Parameters for Telchemy VQmon |Top|

Name Type Description
MOS-LQ DL Float Audio quality MOS-LQ DL
Estimated listening quality MOS is calculated from the listening
quality R-factor that ignores effect of delay and recency. The
value should be comparable with PESQ score.
Range: 0 – 5
Unit: MOS
MOS-CQ DL Float Audio quality MOS-CQ DL
Estimated conversation quality MOS is calculated from the
conversation quality R-factor.
Range: 0 – 5
Unit: MOS
R-LQ DL Float Audio quality R-factor LQ DL
Listening quality R-factor is calculated from E-model by ignoring
the effect of delay and recency.
Range: 0 – 177
R-CQ DL Float Audio quality R-factor CQ DL
Conversation quality R-factor is calculated including delay and
recency to the result.
Range: 0 – 177
Audio quality echo (AQECHO)
Event ID AQECHO
Cellular systems All
Record state Call connection state
Description Recorded after voice quality sample is transmitted and the echo of the sample is
calculated. This measurement event is recorded only during voice quality measurements.
Tools Nemo Outdoor
|Parameters |Parameters for Opticom advanced echo model |

Parameters |Top|
Name Type Description
AQ echo type Integer Audio quality echo type
1 = Opticom advanced echo model

Parameters for Opticom advanced echo model |Top|

Name Type Description
#Header params Integer Number of header parameters
Sample type Integer Audio quality echo sample type
1 = Transmitted sample
#Echo samples Integer Number of echo samples
#Params/echo Integer Number of parameters per echo sample
sample
#AQ echo Integer Audio quality echo annoyance
annoyance 1 = Acceptable
2 = Unacceptable
3 = Sidetone
ERL Float Audio quality echo level
This is same as echo return loss parameter.
Range: 0 – 60
Unit: dB
Echo delay Integer Audio quality echo delay
Range: 0 – 1000
Unit: ms
Echo Float Audio quality echo occurrence
occurrence Defines the ratio of echo in the reported echo sample.
Range: 0 – 100
Unit: %
Echo diff to tol. Float Audio quality diff to tolerance
Defines the measured echo level difference to the tolerance curve
defined by ITU-T record G.131.
Unit: dB

Audio reception state (AQRX)

Event ID AQRX
Cellular systems All
Record state Call connection state
Description Recorded during audio reception. Nemo Server records this only when it is searching
synchronization.
Tools Nemo Outdoor, Nemo Handy, Nemo Server
|Parameters |Parameters for mute detection |

Parameters |Top|
Name Type Description
AQ RX type Integer Audio RX detection type
1 = Mute detection

Parameters for mute detection |Top|

Name Type Description
AQ RX state Integer Audio RX state
1 = Audio off
2 = Audio on

Audio quality info (AQI)

Event ID AQI
Cellular systems All
Record state Call connection state
Description Recorded when the measurement tool achieves synchronization with the transferred
voice quality sample. This measurement event is recorded only during voice quality
measurements.
Tools Nemo Outdoor, Nemo Handy, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
AQ type DL Integer Audio quality type DL
1 = EMOS
2 = PESQ NB
This is the same as P.862.1 standard.
3 = 3SQM
4 = Streaming quality
5 = NiQA-DSP-LQ
This is also known as PSM.
6 = PESQ WB
This is the same as P.862.2 standard.
7 = POLQA NB
This is the same as ITU-T P.863 standard.
8 = POLQA SWB
This is the same as ITU-T P.863 standard.
11 = Telchemy VQmon
AQ type Integer Audio quality test type
1 = Loop-back
2 = Uplink
3 = Downlink
4 = Uplink/downlink
5 = Off
AQ signal Integer Audio quality signal status
This parameter has never been logged and it is deprecated.
1 = Not detected
2 = Detected
AQ synch. Integer Audio quality synchronization status
0 = No synchronization
1 = Synchronized

Video quality downlink (VQDL)

Event ID VQDL
Cellular systems All
Record state Data transfer state
Description Recorded when received video call or video stream quality is measured. Exact reporting
period is video quality algorithm dependent.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for Streaming Quality |Parameters for Psytechnics PVI mobile streaming quality |Parameters for Psytechnics PVI streaming
quality |Parameters for Opticom PEVQ-S streaming quality |Parameters for Telchemy VQmon |Parameters for Huawei U-vMOS |

Parameters |Top|
Name Type Description
VQ type Integer Video quality type
1 = Genista streaming quality
2 = Psytechnics PVI mobile streaming quality
3 = Psytechnics PVI streaming quality
4 = Opticom PEVQ-S streaming quality
5 = Telchemy VQmon
6 = Huawei U-vMOS

Parameters for Streaming Quality |Top|

Parameters for Psytechnics PVI mobile streaming quality |Top|

Parameters for Psytechnics PVI streaming quality |Top|

Name Type Description
Data transfer context ID Context Data transfer context ID
MOS-V Float Video quality MOS
Video quality is measured passively from media streams carried
over packet-based networks. Factors that affect quality include
delay variations, packet losses and other distortions which may
be visible in the video. Also factors such as the video codec
itself are included in the final result. However, end-to-end and
round-trip delays are not taken into account. Video quality is
normally displayed as MOS (Mean Opinion Score), which is
expressed as a single number. The range varies from 1 to 5,
where 1 is poor quality and 5 is perfect. Usually the MOS value
does not reach 5, the practical maximum being most commonly
between the values 3 and 4.
Range: 0 – 5
Unit: MOS
VQ jitter Integer Video quality jitter
Jitter is the delay variation of the streaming process. It records
the delay of received UDP datagrams carrying the video data. If
the delay is too large, video will not play seamlessly.
Minimum value: 0
Unit: ms
VQ PER Float Video quality packet error rate
Displays the rate of lost packets between the last and the
current request. The UDP protocol does not require all packets
to arrive to the client. This is why some packets might be lost
during the transfer due to bad network or long delay variations
(jitter).
Unit: %
MOS degradation Float Video quality MOS degradation
This is the current video quality difference compared to a
'perfect network'.
Range: 0 – 5
Unit: MOS
Deg. due PER Float Video quality degradation due to packet errors
The current proportion of current quality degradation that is due
to packet loss. Shows the extent to which packet loss has
contributed to the current quality loss.
Range: 0 – 100
Unit: %
Deg. due compress Float Video quality degradation due to compression
The proportion of current quality degradation that is due to
video compression. Shows the extent to which video
compression has contributed to the current quality loss.
Range: 0 – 100
Unit: %
Video frame rate Float Video frame rate
Defines the number of picture frames displayed during one
second. The result is equivalent to FPS (frames per second),
which is usually around 10 with mobile content. For example,
when viewing a normal DVD, the FPS is 23.976 with NTSC and
25 with PAL.
Range: 0 – 120
Unit: frame
Video protocol String Video protocol
Defines the protocol used to transfer the file through the
network. This version of PVI is calibrated with RealPlayer and
supports mostly RTP (Real Time Protocol). RDT streams can
be played back but diagnostics are not available. Streams with
RDT protocol are displayed as "Unknown/Not supported".
Video codec String Video codec
Defines the video codec used in the container format. Usually
this is H.263, H.263+, H.264 (MPEG4 Part 10) or MPEG4
Visual (MPEG4 Part 2) when streaming mobile content.

Parameters for Opticom PEVQ-S streaming quality |Top|

Parameters for Telchemy VQmon |Top|

Name Type Description
MOS-V abs Float Video quality MOS absolute DL
Video quality is measured passively from media streams carried
over packet-based networks. Factors that affect quality include
delay variations, packet losses and other distortions which may
be visible in the video. Also factors, such as the video codec
itself are included in the final result. However, end-to-end and
round-trip delays are not taken into account. Video quality is
normally displayed as MOS (Mean Opinion Score), which is
expressed as a single number. The range varies from 1 to 5,
where 1 is poor quality and 5 is perfect. Usually the MOS value
does not reach 5, the practical maximum being most commonly
between the values 3 and 4.
Range: 0 – 5
Unit: MOS
MOS-V rel Float Video quality MOS relative DL
Relative MOS is calculated similar to absolute MOS except
without using resolution. Video streams with different
resolutions should get comparable MOS results.
Range: 0 – 5
Unit: MOS
MOS-AV abs Float Video/audio quality MOS absolute DL
Combined audio and video MOS.
Range: 0 – 5
Unit: MOS
MOS-AV rel Float Video/audio quality MOS relative DL
Combined audio and video MOS excluding resolution from the
calculation.
Range: 0 – 5
Unit: MOS
VQ bitrate Integer Video quality average bitrate DL
Minimum value: 0
Unit: bit/s
Video codec String Video codec
Defines the video codec used in the container format. Usually
this is H.263, H.263+, H.264 (MPEG4 Part 10) or MPEG4
Visual (MPEG4 Part 2) when streaming mobile content.

Parameters for Huawei U-vMOS |Top|

Name Type Description
MOS-V Float Video quality MOS
Huawei's Properietary formula to calculate video quality.
Range: 0 – 5
Unit: MOS
VQ sQuality Float Video quality sQuality
Absolute MOS score where the codec and the resolution of the
video affects to the result.
Range: 0 – 5
Unit: MOS
VQ sStalling Float Video quality sStalling
MOS score related to video interruptions during the playback.
Range: 0 – 5
Unit: MOS
VQ sLoading Float Video quality sLoading
MOS score related to initial loading time before the playback
starts.
Range: 0 – 5
Unit: MOS

Video quality uplink (VQUL)

Event ID VQUL
Cellular systems All
Record state Data transfer state
Description Recorded when transmitted video call or video stream quality is measured. Exact
reporting period is video quality algorithm dependent.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for Telchemy VQmon |

Parameters |Top|
Name Type Description
VQ type Integer Video quality type
5 = Telchemy VQmon

Parameters for Telchemy VQmon |Top|

Name Type Description
MOS-V abs UL Float Video quality MOS absolute UL
Video quality is measured passively from media streams carried
over packet-based networks. Factors that affect quality include
delay variations, packet losses and other distortions which may
be visible in the video. Also factors, such as the video codec
itself are included in the final result. However, end-to-end and
round-trip delays are not taken into account. Video quality is
normally displayed as MOS (Mean Opinion Score), which is
expressed as a single number. The range varies from 1 to 5,
where 1 is poor quality and 5 is perfect. Usually the MOS value
does not reach 5, the practical maximum being most commonly
between the values 3 and 4.
Range: 0 – 5
Unit: MOS
MOS-V rel UL Float Video quality MOS relative UL
Relative MOS is calculated similar to absolute MOS except
without using resolution. Video streams with different
resolutions should get comparable MOS results.
Range: 0 – 5
Unit: MOS
MOS-AV abs UL Float Video/audio quality MOS absolute UL
Combined audio and video MOS.
Range: 0 – 5
Unit: MOS
MOS-AV rel UL Float Video/audio quality MOS relative UL
Combined audio and video MOS excluding resolution from the
calculation.
Range: 0 – 5
Unit: MOS
VQ bitrate UL Integer Video quality average bitrate UL
Minimum value: 0
Unit: bit/s
Video codec UL String Video codec UL
Defines the video codec used in the container format. Usually
this is H.263, H.263+, H.264 (MPEG4 Part 10) or MPEG4
Visual (MPEG4 Part 2) when streaming mobile content.

Video throughput (VRATE)

Event ID VRATE
Cellular systems UMTS FDD
Record state Call connection state
Description Recorded for video call when parameter sample is received from the device and the
received sample differs from the previous result.
Tools Nemo Outdoor
|Parameters |Parameters for UMTS FDD |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
5 = UMTS FDD

Parameters for UMTS FDD |Top|

Name Type Description
Video protocol Integer Video protocol
1 = HDLC
Video rate UL Integer Video rate uplink
Minimum value: 0
Unit: bit/s
Video rate DL Integer Video rate downlink
Minimum value: 0
Unit: bit/s
Video frame rate UL Integer Video frame rate uplink
Video frame rate DL Integer Video frame rate downlink
Video FER Float Video FER
Number of erroneous frames received.
Unit: %
VQI Float Video call quality index
Range: 1 – 5
Message sending/receiving attempt (MSGA)
Event ID MSGA
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,cdmaOne,CDMA 1x,iDEN
Record state Always
Description Recorded when SMS, MMS, or USSD message sending is attempted or a message is
received. This measurement event begins the SMS, MMS, and USSD transmission state.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for SMS and IMS SMS message |Parameters for MMS message |Parameters for CDMA SMS message |Parameters for USSD
message |Parameters for Kodiak IPA |Parameters for USSD message sequence |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
55 = iDEN
Message type Integer Message type
1 = SMS
2 = MMS
3 = CDMA SMS
4 = USSD
5 = Kodiak IPA
Kodiak instant private alert.
6 = USSD sequence
Logged to indicate the beginning and ending of sending
multiple separate USSD messages.
7 = IMS SMS

Parameters for SMS and IMS SMS message |Top|

Name Type Description
SMS context ID Context SMS context ID
SMS msg. type Integer SMS message type
1 = Receive
2 = Send
3 = Status report
4 = Command
5 = Broadcast
SMS number String SMS phone number
SMSC String SMS service center address
SMS coding scheme Integer SMS data coding scheme
GSM 03.38 defines the meaning of this parameter.
Range: 0 – 255
SMS data String (hex) SMS message data
SMS data in hexadecimal values.
SMS timeout Integer SMS timeout
The timeout value from SMS send attempt (MSGA) to success
(MSGS). If SMS has not been sent during this time the MSGF
measurement event is recorded.
Minimum value: 0
Unit: ms

Parameters for MMS message |Top|

Name Type Description
MMS context ID Context MMS context ID
MMS msg. type Integer MMS message type
1 = Send
2 = Retrieve
3 = Notification
4 = Delivery report
MMS ser. center String MMS service center
MMS tr. protocol Integer MMS transport protocol
1 = WAP 1.0
2 = SMS
3 = WAP 2.0
#MMS files Integer Number of MMS files
MMS filename String MMS filename
For send MMS message type this is a name of the MMS
message file. For retrieved and notification MMS types this a
MMS message reference (that is in a practice a content location
in a URI form).
MMS timeout Integer MMS timeout
The timeout value from MMS send attempt (MSGA) to success
(MSGS). If MMS has not been sent during this time the MSGF
measurement event is recorded.
Minimum value: 0
Unit: ms

Parameters for CDMA SMS message |Top|

Name Type Description
SMS context ID Context SMS context ID
SMS msg. type Integer SMS message type
1 = Receive
2 = Send
3 = Status report
4 = Command
5 = Broadcast
SMS number String SMS phone number
SMS data String (hex) SMS message data
SMS data in hexadecimal values.
SMS timeout Integer SMS timeout
The timeout value from SMS send attempt (MSGA) to success
(MSGS). If SMS has not been sent during this time the MSGF
measurement event is recorded.
Minimum value: 0
Unit: ms

Parameters for USSD message |Top|

Name Type Description
USSD context ID Context USSD context ID
USSD sequence context ID Context USSD sequence context ID
USSD type Integer USSD message type
See 3GPP TS 123.090.
1 = Mobile request
Mobile originated request to the network for which the
mobile station waits for the answer.
2 = Mobile response
Mobile originated response to the network request.
3 = Network request
Network originated request of information for the mobile
station.
4 = Network response
Network originated response to the request received from
the mobile station.
5 = Network notification
Network originated notification that does not require further
action from the mobile station.
USSD gateway String USSD gateway
USSD data String (hex) USSD message data

Parameters for Kodiak IPA |Top|

Name Type Description
Kodiak IPA context ID Context Kodiak IPA context ID
IPA type Integer Kodiak IPA message type
1 = Send
2 = Receive
IPA address String Kodiak IPA address
This is the address where the IPA is received or where it is sent.

Parameters for USSD message sequence |Top|

Name Type Description
USSD sequence context ID Context USSD sequence context ID
USSD gateway String USSD gateway
USSD data String (hex) USSD message data
This parameter contains all USSD messages that are
transmitted in this session. Different messages are separated
using semicolon.

Message sending/receiving success (MSGS)

Event ID MSGS
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,cdmaOne,CDMA 1x,iDEN
Record state SMS, MMS, and USSD transmission state
Description Recorded when SMS, MMS, or USSD message is sent or received successfully. The
SMS message is considered successfully received when the response from the SMS
server is received. Terminates the SMS, MMS, and USSD transmission state.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for SMS and IMS SMS message |Parameters for MMS message |Parameters for CDMA SMS message |Parameters for USSD
message |Parameters for Kodiak IPA |Parameters for USSD message sequence |

Parameters for SMS and IMS SMS message |Top|

Name Type Description
SMS context ID Context SMS context ID
Ref. number Integer SMS reference number
Reference number for sent SMS message.
SMS msg. type Integer SMS message type
1 = Receive
2 = Send
3 = Status report
4 = Command
5 = Broadcast

Parameters for MMS message |Top|

Name Type Description
MMS context ID Context MMS context ID
MMS msg. ID String MMS message ID
MMS msg. type Integer MMS message type
1 = Send
2 = Retrieve
3 = Notification
4 = Delivery report

Parameters for CDMA SMS message |Top|

Name Type Description
SMS context ID Context SMS context ID
SMS duration Integer SMS transmission duration
Defines how long the SMS transmission has taken. Calculated
from origination or paging message to the SMS
acknowledgement message.
Minimum value: 0
Unit: ms

Parameters for USSD message |Top|

Name Type Description
USSD context ID Context USSD context ID
USSD type Integer USSD message type
See 3GPP TS 123.090.
1 = Mobile request
Mobile originated request to the network for which the
mobile station waits for the answer.
2 = Mobile response
Mobile originated response to the network request.
3 = Network request
Network originated request of information for the mobile
station.
4 = Network response
Network originated response to the request received from
the mobile station.
5 = Network notification
Network originated notification that does not require further
action from the mobile station.

Parameters for Kodiak IPA |Top|

Name Type Description
Kodiak IPA context ID Context Kodiak IPA context ID
IPA type Integer Kodiak IPA message type
1 = Send
2 = Receive

Parameters for USSD message sequence |Top|

Name Type Description
USSD sequence context ID Context USSD sequence context ID

Message sending/receiving failed (MSGF)

Event ID MSGF
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,cdmaOne,CDMA 1x,iDEN
Record state SMS, MMS, and USSD transmission state
Description Recorded when SMS, MMS, or USSD message sending fails. This measurement event
terminates the SMS, MMS, and USSD transmission state.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q
|Parameters |Parameters for SMS and IMS SMS message |Parameters for MMS message |Parameters for CDMA SMS message |Parameters for USSD
message |Parameters for Kodiak IPA |Parameters for USSD message sequence |

Parameters for SMS and IMS SMS message |Top|

Name Type Description
SMS context ID Context SMS context ID
SMS cause Integer SMS cause
1 = Unassigned (unallocated) number
8 = Operator determined barring
10 = Call barred
21 = Short message transfer rejected
27 = Destination out of service
28 = Unidentified subscriber
29 = Facility rejected
30 = Unknown subscriber
38 = Network out of order
41 = Temporary failure
42 = Congestion
47 = Resources unavailable, unspecified
50 = Requested facility not subscribed
69 = Requested facility not implemented
81 = Invalid short message transfer referencevalue
95 = Invalid message, unspecified
96 = Invalid mandatory information
97 = Message type non-existent or not implemented
98 = Message not compatible with short message protocol state
99 = Information element non-existent or notimplemented
111 = Protocol error, unspecified
127 = Interworking, unspecified
128 = Telematic interworking not supported
129 = Short message Type 0 not supported
130 = Cannot replace short message
143 = Unspecified TP-PID error
144 = Data coding scheme (alphabet) not supported
145 = Message class not supported
159 = Unspecified TP-DCS error
160 = Command cannot be actioned
161 = Command unsupported
175 = Unspecified TP-Command error
176 = TPDU not supported
192 = SC busy
193 = No SC subscription
194 = SC system failure
195 = Invalid SME address
196 = Destination SME barred
197 = SM Rejected-Duplicate SM
198 = TP-VPF not supported
199 = TP-VP not supported
208 = SIM SMS storage full
209 = No SMS storage capability in SIM
210 = Error in MS
211 = Memory Capacity Exceeded
212 = SIM Application Toolkit Busy
255 = Unspecified error cause
300 = ME failure
301 = SMS service of ME reserved
302 = Operation not allowed
303 = Operation not supported
304 = Invalid PDU mode parameter
305 = Invalid text mode parameter
310 = SIM not inserted
311 = SIM PIN required
312 = PH-SIM PIN required
313 = SIM failure
314 = SIM busy
315 = SIM wrong
316 = SIM PUK required
317 = SIM PIN2 required
318 = SIM PUK2 required
320 = Memory failure
321 = invalid memory index
322 = memory full
330 = SMSC address unknown
331 = no network service
332 = network timeout
340 = No +CNMA acknowledgement expected
500 = Unknown error
512 = Manufacturer specific
SMS msg. type Integer SMS message type
1 = Receive
2 = Send
3 = Status report
4 = Command
5 = Broadcast

Parameters for MMS message |Top|

Name Type Description
MMS context ID Context MMS context ID
MMS cause Integer MMS cause
1 = Timeout
2 = Invalid remote address
4 = Invalid remote file
5 = Invalid local file
50 = Unknown
Only used with the MMS protocol.
51 = Protocol error
Only used with the MMS protocol.
52 = Invalid TID
Only used with the MMS protocol.
53 = Not implemented class 2
Only used with the MMS protocol.
54 = Not implemented SAR
Only used with the MMS protocol.
55 = Not implemented user acknowledgement
Only used with the MMS protocol.
56 = WTP version zero
Only used with the MMS protocol.
57 = Capacity temporarily exceeded
Only used with the MMS protocol.
58 = No response
Only used with the MMS protocol.
59 = Message too large
Only used with the MMS protocol.
100 = Continue
101 = Switching Protocols
129 = Unspecified
Only used with the MMS protocol.
130 = Service denied
Only used with the MMS protocol.
131 = Message format corrupt
Only used with the MMS protocol.
132 = Sending address unresolved
Only used with the MMS protocol.
133 = Message not found
Only used with the MMS protocol.
134 = Network problem
Only used with the MMS protocol.
135 = Content not accepted
Only used with the MMS protocol.
136 = Unsupported message
Only used with the MMS protocol.
200 = OK, success
201 = Created
202 = Accepted
203 = Non-Authoritative information
204 = No content
205 = Reset content
206 = Partial content
300 = Multiple choices
301 = Moved permanently
302 = Moved temporarily
303 = See other
304 = Not modified
305 = Use proxy
306 = Reserved
307 = Temporary redirect
400 = Bad request - server could not understand request
401 = Unauthorized
402 = Payment required
403 = Forbidden - operation is understood but refused
404 = Not found
405 = Method not allowed
406 = Not acceptable
407 = Proxy authentication required
408 = Request timeout
409 = Conflict
410 = Gone
411 = Length required
412 = Precondition failed
413 = Request entity too large
414 = Request-URI too large
415 = Unsupported media type
416 = Requested range not satisfiable
417 = Expectation failed
500 = Internal server error
501 = Not implemented
502 = Bad gateway
503 = Service unavailable
504 = Gateway timeout
505 = HTTP version not supported
MMS msg. type Integer MMS message type
1 = Send
2 = Retrieve
3 = Notification
4 = Delivery report

Parameters for CDMA SMS message |Top|

Parameters for USSD message |Top|

Parameters for USSD message sequence |Top|

Name Type Description
USSD context ID Context USSD context ID

SIP server registration attempt (SIPREGA)

Event ID SIPREGA
Cellular systems All
Record state Packet active state
Description Recorded when the user initiates the SIP server (or similar) registration attempt. This
measurement event begins the SIP server registration attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for SIP server registration |Parameters for Skype server registration |Parameters for IMS SIP server registration |Parameters for
Kodiak server registration |

Parameters |Top|
Name Type Description
SIP server registration type Integer SIP server registration type
1 = SIP server registration
2 = Skype server registration
3 = LTE IMS SIP server registration
4 = Kodiak server registration
5 = WLAN IMS SIP server registration

Parameters for SIP server registration |Top|

Name Type Description
SIP server context ID Context SIP server context ID
Packet session context ID Context Packet session context ID
SIP server String SIP server address
SIP server address is recorded in URI format.

Parameters for Skype server registration |Top|

Name Type Description
Skype server context ID Context Skype server context ID
Packet session context ID Context Packet session context ID
Skype server username String Skype server username

Parameters for IMS SIP server registration |Top|

Parameters for Kodiak server registration |Top|

SIP server registration failed (SIPREGF)

Event ID SIPREGF
Cellular systems All
Record state SIP server registration attempt state
Description Recorded when registration to the SIP server (or similar) fails. This measurement event
terminates the SIP server registration attempt state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for SIP server registration |Parameters for Skype server registration |Parameters for IMS SIP server registration |Parameters for
Kodiak server registration |

Parameters for SIP server registration |Top|

Name Type Description
SIP server context ID Context SIP server context ID
Fail. status Integer SIP server failure status
1 = User abort
2 = Server reject
3 = Mobile reject
4 = Timeout
5 = Test system failure
Fail. cause Integer SIP server failure cause
100 = Trying
Extended search being performed may take a significant
time so a forking proxy must send a 100 Trying response.
180 = Ringing
181 = Call is being forwarded
182 = Queued
183 = Session progress
199 = Early dialog terminated
200 = OK
202 = Accepted
The request has been understood but cannot be processed.
204 = No notification
300 = Multiple choices
301 = Moved permanently
302 = Moved temporarily
305 = Use proxy
380 = Alternative service
400 = Bad request
401 = Unauthorized
Used only by registrars or user agents. Proxies should use
proxy authorization 407.
402 = Payment required
403 = Forbidden
404 = Not found
User not found.
405 = Method not allowed
406 = Not acceptable
407 = Proxy authentication required
408 = Request timeout (could not find the user in time)
409 = Conflict
410 = Gone
The user existed once, but is not available here any more.
411 = Length required
412 = Conditional request failed
413 = Request entity too large
414 = Request-URI too long
415 = Unsupported media type
416 = Unsupported URI scheme
417 = Unknown resource priority
420 = Bad extension
Bad SIP protocol extension used, not understood by the
server.
421 = Extension required
422 = Session interval too small
423 = Interval too brief
424 = Bad location information
428 = Use identity header
429 = Provide referrer identity
430 = Flow failed
433 = Anonymity disallowed
436 = Bad identity-info
437 = Unsupported certificate
438 = Invalid identity header
439 = First hop lacks outbound support
470 = Consent needed
480 = Temporarily unavailable
481 = Call/transaction does not exist
482 = Loop detected
483 = Too many hops
484 = Address incomplete
485 = Ambiguous
486 = Busy here
487 = Request terminated
488 = Not acceptable here
489 = Bad event
491 = Request pending
493 = Undecipherable
Could not decrypt S/MIME body part.
494 = Security agreement required
500 = Server internal error
501 = Not implemented
502 = Bad gateway
503 = Service unavailable
504 = Server time-out
505 = Version not supported
513 = Message too large
580 = Precondition failure
600 = Busy everywhere
603 = Decline
604 = Does not exist anywhere
606 = Not acceptable

Parameters for Skype server registration |Top|

Name Type Description
Skype server context ID Context Skype server context ID
Fail. status Integer Skype server failure status
1 = User abort
2 = Server reject
3 = Mobile reject
4 = Timeout
Fail. cause Integer Skype server failure cause
Currently this is always n/a.

Parameters for IMS SIP server registration |Top|

Parameters for Kodiak server registration |Top|

SIP server registration completed (SIPREGC)

Event ID SIPREGC
Cellular systems All
Record state SIP registration attempt state
Description Recorded when registration to the SIP server (or similar) succeeded and the connection
is now established to the SIP server. This measurement event begins the SIP server
registerion state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for SIP server registration |Parameters for Skype server registration |Parameters for IMS SIP server registration |Parameters for
Kodiak server registration |

Parameters for SIP server registration |Top|

Name Type Description
SIP server context ID Context SIP server context ID

Parameters for Skype server registration |Top|

Name Type Description
Skype server context ID Context Skype server context ID

Parameters for IMS SIP server registration |Top|

Name Type Description
SIP server context ID Context SIP server context ID

Parameters for Kodiak server registration |Top|

Name Type Description
SIP server context ID Context SIP server context ID

SIP server deregistered (SIPREGD)

Event ID SIPREGD
Cellular systems All
Record state SIP server registration
Description Recorded when the device is deregistered from the SIP server (or similar). This
measurement event terminates the SIP server registration state.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for SIP server registration |Parameters for Skype server registration |Parameters for IMS SIP server registration |Parameters for
Kodiak server registration |
Parameters |Top|
Name Type Description
SIP server registration type Integer SIP server registration type
1 = SIP server registration
2 = Skype server registration
3 = LTE IMS SIP server registration
4 = Kodiak server registration
5 = WLAN IMS SIP server registration

Parameters for SIP server registration |Top|

Name Type Description
SIP server context ID Context SIP server context ID
Deact. status Integer SIP server deactivation status
1 = Normal disconnect
2 = Server initiated disconnect
3 = Abnormal release
5 = Test system failure
Deact. cause Integer SIP server deactivation cause
100 = Trying
Extended search being performed may take a significant
time so a forking proxy must send a 100 Trying response.
180 = Ringing
181 = Call is being forwarded
182 = Queued
183 = Session progress
199 = Early dialog terminated
200 = OK
202 = Accepted
The request has been understood but cannot be processed.
204 = No notification
300 = Multiple choices
301 = Moved permanently
302 = Moved temporarily
305 = Use proxy
380 = Alternative service
400 = Bad request
401 = Unauthorized
Used only by registrars or user agents. Proxies should use
proxy authorization 407.
402 = Payment required
403 = Forbidden
404 = Not found
User not found.
405 = Method not allowed
406 = Not acceptable
407 = Proxy authentication required
408 = Request timeout (could not find the user in time)
409 = Conflict
410 = Gone
The user existed once, but is not available here any more.
411 = Length required
412 = Conditional request failed
413 = Request entity too large
414 = Request-URI too long
415 = Unsupported media type
416 = Unsupported URI scheme
417 = Unknown resource priority
420 = Bad extension
Bad SIP protocol extension used, not understood by the
server.
421 = Extension required
422 = Session interval too small
423 = Interval too brief
424 = Bad location information
428 = Use identity header
429 = Provide referrer identity
430 = Flow failed
433 = Anonymity disallowed
436 = Bad identity-info
437 = Unsupported certificate
438 = Invalid identity header
439 = First hop lacks outbound support
470 = Consent needed
480 = Temporarily unavailable
481 = Call/transaction does not exist
482 = Loop detected
483 = Too many hops
484 = Address incomplete
485 = Ambiguous
486 = Busy here
487 = Request terminated
488 = Not acceptable here
489 = Bad event
491 = Request pending
493 = Undecipherable
Could not decrypt S/MIME body part.
494 = Security agreement required
500 = Server internal error
501 = Not implemented
502 = Bad gateway
503 = Service unavailable
504 = Server time-out
505 = Version not supported
513 = Message too large
580 = Precondition failure
600 = Busy everywhere
603 = Decline
604 = Does not exist anywhere
606 = Not acceptable
Deact. time Integer SIP server deactivation time
Minimum value: 0
Unit: ms

Parameters for Skype server registration |Top|

Name Type Description
Skype server context ID Context Skype server context ID
Deact. status Integer Skype server deactivation status
1 = Normal disconnect
2 = Server initiated disconnect
3 = Abnormal release
Deact. cause Integer Skype server deactivation cause
Currently this is always n/a.
Deact. time Integer Skype server deactivation time
Minimum value: 0
Unit: ms

Parameters for IMS SIP server registration |Top|

Parameters for Kodiak server registration |Top|

SIP server re-registration (SIPREGRE)

Event ID SIPREGRE
Cellular systems All
Record state Packet active state
Description Recorded after successful or failed SIP server re-registration attempt.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for IMS SIP server re-registration |

Parameters |Top|
Name Type Description
SIP server registration type Integer SIP server registration type
3 = LTE IMS SIP server registration
5 = WLAN IMS SIP server registration

Parameters for IMS SIP server re-registration |Top|

Name Type Description
SIP server context ID Context SIP server context ID
Re-reg. result Integer SIP server re-registration result
1 = Success
2 = Rejected
3 = Failed
4 = Timeout
SIP server String Attempted SIP server address
Attempted SIP server address is recorded in URI format.
Push-to-talk information (PTTI)
Event ID PTTI
Cellular systems UMTS FDD,UMTS TD-SCDMA,GSM,TETRA
Record state Packet active state
Description Recorded when the push-to-talk state changes.
Tools Nemo Outdoor
|Parameters |Parameters for POC |

Parameters |Top|
Name Type Description
Measured sys. Integer Measured system
1 = GSM
2 = TETRA
5 = UMTS FDD
6 = UMTS TD-SCDMA
PTT tech. Integer Push-to-talk technology
1 = POC

Parameters for POC |Top|

Name Type Description
POC context ID Context POC context ID
PTT state Integer Push-to-talk state
1 = Idle
2 = Receiving
3 = Preparing to transmit
4 = Transmitting
PTT user identity String Push-to-talk user identity
PTT status Integer Push-to-Talk status
-1 = Not available or PTT state not changed
1 = User attempt
2 = Attempt succeeded
11 = Stream start
12 = Stream continue
13 = Stream start during transmit
21 = Normal end
22 = Server initiated end
23 = Abnormal end
24 = User abort

RTP jitter (RTPJITTER)

Event ID RTPJITTER
Cellular systems All
Record state Packet active state
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result. Sampling period is approximately about 500ms.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for POC |Parameters for VoIP |Parameters for IMS voice |Parameters for IMS video |

Parameters |Top|
Name Type Description
RTP jitter type Integer RTP jitter type
1 = POC
2 = VoIP
3 = IMS voice
4 = IMS video

Parameters for POC |Top|

Name Type Description
Jitter Integer RTP jitter downlink
Minimum value: 0
Unit: ms
RTP jitter UL Integer RTP jitter uplink
Minimum value: 0
Unit: ms
IAT DL Integer RTP interarrival time downlink
During the reporting period the maximum duration between two
received voice RTP packets.
Minimum value: 0
Unit: ms
IAT UL Integer RTP interarrival time uplink
Minimum value: 0
Unit: ms

Parameters for VoIP |Top|

Name Type Description
Jitter Integer RTP jitter downlink
Minimum value: 0
Unit: ms
RTP RTT Integer RTP round-trip-time
Minimum value: 0
Unit: ms
RTP PER Float RTP packet error rate
Ratio of missing RTP packets to all RTP packets that should
have been received during the reporting period. Number of lost
and total number of RTP packets are derived from RTP
sequence number (packets are either lost or arrive too late).
Range: 0 – 100
Unit: %

Parameters for IMS voice |Top|

Name Type Description
Jitter Integer RTP jitter downlink
This is average packet delay variation during the reporting
period based on RFC 5481 subclause 4.2. PDV = (Ri - Rmin) -
(Si - Smin) = (Ri - Si) - (Rmin - Smin), where R is receive time
and S is sent time based on RTP timestamps.
Minimum value: 0
Unit: ms
RTP PER Float RTP packet error rate
Ratio of missing RTP packets to all RTP packets that should
have been received during the reporting period. Number of lost
and total number of RTP packets are derived from RTP
sequence number (packets are either lost or arrive too late).
Range: 0 – 100
Unit: %
IAT DL Integer RTP interarrival time downlink
During the reporting period the maximum duration between two
received voice RTP packets.
Minimum value: 0
Unit: ms
RTP DL bytes Integer RTP bytes downlink
Number of RTP downlink bytes transferred after last update.
Minimum value: 0
RTP DL packets Integer RTP packets downlink
Number of RTP downlink packets transferred after last update.
Minimum value: 0
RTP UL bytes Integer RTP bytes uplink
Number of RTP uplink bytes transferred after last update.
Minimum value: 0
RTP UL packets Integer RTP packets uplink
Number of RTP uplink packets transferred after last update.
Minimum value: 0
RTP BEL Integer RTP burst error length
Maximum length of sequential erroneous or missing RTP
packets during the last reporting period.
Minimum value: 0

Parameters for IMS video |Top|

Name Type Description
Video jitter Integer RTP video jitter downlink
This parameter is not logged currently.
Minimum value: 0
Unit: ms
Video RTP PER Float RTP video packet error rate
Range: 0 – 100
Unit: %
Video IAT DL Integer RTP video interarrival time downlink
During the reporting period the maximum duration between two
received video RTP packets.
Minimum value: 0
Unit: ms
Video RTP DL bytes Integer RTP video bytes downlink
Number of video RTP downlink bytes transferred after last
update.
Minimum value: 0
Video RTP DL packets Integer RTP video packets downlink
Number of video RTP downlink packets transferred after last
update.
Minimum value: 0
Video RTP UL bytes Integer RTP video bytes uplink
Number of video RTP uplink bytes transferred after last update.
Minimum value: 0
Video RTP UL packets Integer RTP video packets uplink
Number of video RTP uplink packets transferred for after last
update.
Minimum value: 0
Video RTP BEL Integer RTP video burst error length
Maximum length of sequential erroneous or missing RTP
packets during the last reporting period.
Minimum value: 0
RTP jitter uplink (RTPJITTERU)
Event ID RTPJITTERU
Cellular systems All
Record state Packet active state
Description Recorded when INFO SIP message contains the logged parameters.
Tools Nemo Outdoor
|Parameters |Parameters for IMS |

Parameters |Top|
Name Type Description
RTP jitter type Integer RTP jitter type
3 = IMS

Parameters for IMS |Top|

Name Type Description
RTP jitter UL Float RTP jitter uplink
Minimum value: 0
Unit: ms
RTP PER UL Float RTP packet error rate uplink
Range: 0 – 100
Unit: %

RTP buffer status (RTPBUFFER)

Event ID RTPBUFFER
Cellular systems All
Record state Packet active state
Description Recorded when parameter sample is received from the device and the received sample
differs from the previous result. Sampling period is approximately 500ms.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for IMS voice |

Parameters |Top|
Name Type Description
RTP buffer type Integer RTP buffer type
3 = IMS voice

Parameters for IMS voice |Top|

Name Type Description
Talk rate Float Talk rate
Ratio of talk frames to all frames.
Range: 0 – 100
Dequeue underflow Integer Dequeue underflow
The number of the audio frames that have not been available in
the de-jitter buffer during the playback.
Minimum value: 0
Consecutive dequeue Integer Consecutive dequeue underflow
underflow The longest consecutive missed audio frames during the
playback. The audio interruption time is this parameter
mupltiplied by frame length that is currently 20 ms.
Minimum value: 0
Q size Integer Queue size (talk)
The maximum size of the dejitter buffer during the reporting
period.
Minimum value: 0
Unit: ms
Q size (silence) Integer Queue size (silence)
The maximum size of the dejitter buffer during the reporting
period.
Minimum value: 0
Unit: ms
Frame delay Integer Frame delay (talk)
During the reporting period the maximum duration the RTP
packet has been in the dejitter buffer before the usage.
Minimum value: 0
Unit: ms
Frame delay (silence) Integer Frame delay (silence)
During the reporting period the maximum duration the RTP
packet has been in the dejitter buffer before the usage.
Minimum value: 0
Unit: ms

Robust header compression (ROHC)

Event ID ROHC
Cellular systems All
Record state Packet active state
Description Recorded to collect robust header compression (ROHC) IP header compression
algorithm usage statistics during IMS based calls.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for ROHC |

Parameters |Top|
Name Type Description
IP header Integer IP header compression type
compression type Sometimes transmitted/received application layer payload size is
relatively small compared to TCP/IP header size. This is especially
true with IMS based voice services where audio packet size can be
one fifth or even less compared to TCP/IP headers. To optimize
network resource usage various algorithms have been developed to
compress and to remove redundant parts of the TCP/IP header.
1 = ROHC
Robust header compression. See more RFC 3095 and RFC 4995.
Parameters for ROHC |Top|
Name Type Description
#Header params Integer Number of header parameters
ROHC CR UL Float ROHC compression rate UL
This is the ratio of transmitted compressed bytes to uncompressed
bytes. In some cases (especially at the beginning of the session) this
ratio can be higher than 100% meaning that compressed result is
larger than uncompressed data.
Range: 0 – 110
Unit: %
ROHC CR DL Float ROHC compression rate DL
This is the ratio of received compressed bytes to uncompressed bytes.
In some cases (especially at the beginning of the session) this ratio
can be higher than 100% meaning that compressed data is larger than
uncompressed result. Sometimes this parameter is called
decompression rate.
Range: 0 – 110
Unit: %
#ROHC profiles Integer Number of ROHC profiles
#Params/ROHC Integer Number of parameters per ROHC profile
profile
ROHC profile Integer ROHC profile
ROHC IP header compression standard defines multiple different
header compression schemes for different purposes. This section
defines each compression profile its own separate compression
statistic. See more about compression profiles in RFC 4995.
0 = Uncompressed
See more RFC 4995.
1 = RTP
See more RFC 3095.
2 = UDP
See more RFC 3095.
3 = ESP
See more RFC 3095.
4 = IP
See more RFC 3843.
5 = LLA
See more RFC 3242.
6 = TCP
See more RFC 4996.
7 = RTP/UDP-lite
See more RFC 3408.
8 = UDP-lite
See more RFC 4019.
261 = LLA R-mode
See more RFC 4019.
ROHC CR Float ROHC compression ratio UL/profile
UL/profile This is the ratio of transmitted compressed bytes to uncompressed
bytes. In some cases (especially at the beginning of the session) this
ratio can be higher than 100% meaning that compressed result is
larger than uncompressed data.
Range: 0 – 110
Unit: %
ROHC CR Float ROHC compression ratio DL/profile
DL/profile This is the ratio of received compressed bytes to uncompressed bytes.
In some cases (especially at the beginning of the session) this ratio
can be higher than 100% meaning that compressed data is larger than
uncompressed result. Sometimes this parameter is called
decompression rate.
Range: 0 – 110
Unit: %
GPS information (GPS)
Event ID GPS
Cellular systems All
Record state Always
Description Recorded when GPS information is received from the device.
Tools Nemo Outdoor, Nemo Handy, Nemo Autonomous, Nemo Q, Nemo Server
|Parameters |

Parameters |Top|
Name Type Description
Lon. Float Longitude
Longitude of the measured position.
Lat. Float Latitude
Latitude of the measured position.
Height Integer Height
Unit: m
Distance Integer Distance
Unit: m
Quality Integer GPS fix quality
-1 = Simulated GPS fix
0 = No fix
1 = GPS fix
2 = DGPS fix
3 = DR in use
4 = GPS estimation
5 = GPS fix with DR
6 = DGPS fix with DR
11 = Glonass fix
21 = GPS + Glonass fix
Satellites Integer GPS satellites
Velocity Integer Velocity
Unit: km/h
PDOP Float Position dilution of precision
See http://en.wikipedia.org/wiki/PDOP.
HDOP Float Horizontal dilution of precision
See http://en.wikipedia.org/wiki/PDOP.
VDOP Float Vertical dilution of precision
See http://en.wikipedia.org/wiki/PDOP.
Status Integer GPS status
0 = No fix
1 = Fix
The normal state.
2 = Time drift
GPS time drift is detected.
3 = Stale position
GPS position has been the same over a predefined time
period.
Textual user note (TNOTE)
Event ID TNOTE
Cellular systems All
Record state Always
Description Recorded when textual note is recorded by the user.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
TNote String Textual note

Service quality note (QNOTE)

Event ID QNOTE
Cellular systems All
Record state Always
Description Recorded when a service quality note is recorded by the user. This is an answer to a
predefined question presented to the user.
Tools Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
ID Integer Service quality ID
This value uniquely identifies each service quality question in
the measurement.
Parent ID Integer Service quality parent ID
Identifier of the parent question. -1 if this is a root question.
Question String Service quality question
Question in double quotes.
Answer String Service quality answer
Predefined answer in double quotes.
Description String Service quality description
Additional user written information for the question in double
quotes. It is also possible that Answer field is for example
_Other_ and this field explains exacly what happened.
Service trigger note (QTRIGGER)
Event ID QTRIGGER
Cellular systems All
Record state Always
Description Recorded to indicate service trigger description.
Tools Nemo Q
|Parameters |

Parameters |Top|
Name Type Description
Description String Service trigger description

User marker (MARK)

Event ID MARK
Cellular systems All
Record state Always
Description Recorded when the user adds a marker to the measurement.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
#Marker SEQ Integer Marker sequence number
The ordinal number of the marker during measurement session.
Marker# Integer Marker number
Marker identification number for measuring location.
Range: 0 – 9

Textual error note (ERR)

Event ID ERR
Cellular systems All
Record state Always
Description Recorded when critical measurement tool or device errors occur (e.g. connection to the
device trace interface is lost).
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Error String Error text

Change of day (DATE)

Event ID DATE
Cellular systems All
Record state Always
Description Recorded when data changes.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Date String Date
Date in format dd.mm.yyyy, where dd is the day of the month,
mm is the month of the year and yyyy is the year.

Pause (PAUSE)
Event ID PAUSE
Cellular systems All
Record state Always
Description Recorded when the measurement is paused by the user.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Pause context ID Context Pause context ID
Resume (RESUME)
Event ID RESUME
Cellular systems All
Record state Always
Description Recorded when the paused measurement is resumed. If the measurement is stopped
during the paused state, the RESUME measurement event is recorded before the #STOP
measurement event.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Pause context ID Context Pause context ID

External application launch (APP)

Event ID APP
Cellular systems All
Record state Always
Description Recorded when an external application is launched by a script.
Tools Nemo Outdoor
|Parameters |

Parameters |Top|
Name Type Description
Ext. app. state Integer External application state
1 = Started asynchronously
2 = Started synchronously
3 = Stopped
#Ext. app. launch Integer Number of external application launches
This counter is incremented everytime external application is
launched. When external application is stopped the same
number is used as the one what was used when application
was started.
Ext. app. name String External application name
Ext. app. params String External application parameters
Application list (APPLIST)
Event ID APPLIST
Cellular systems All
Record state Always
Description Recorded to indicate a snapshot of the currently running applications.
Tools Nemo Handy, Nemo CEM
|Parameters |

Parameters |Top|
Name Type Description
#Apps Integer Running applications
#Params/app Integer Number of parameters per running application
App name String Running application name
App String Running component name
component This is the name of the launched component in Android.
App version String Running application version
App state Integer Running application state
1 = Foreground
2 = Visible
3 = Perceptible
4 = Service
5 = Background
6 = Empty

Modem message (MODEM)

Event ID MODEM
Cellular systems All
Record state Always
Description Recorded when modem message is sent to or received from the device. At the moment
this message is only logged when Send Modem Message functionality is used from
Nemo Outdoor.
Tools Nemo Outdoor
|Parameters |Parameters for modem message |

Parameters |Top|
Name Type Description
Modem message type Integer Modem message type
1 = Modem
Parameters for modem message |Top|
Name Type Description
Direction Integer Modem message direction
1 = Send
2 = Receive
Modem message String (hex) Modem message

Script information (SCRIPT)

Event ID SCRIPT
Cellular systems All
Record state Always
Description Recorded when the script engine is started to indicate used script.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
#Header Integer Number of header parameters
params
Test script file String Test script filename
Defines the test script that was used during measurements.
Test script String Test script version
version
#Repeats Integer Test script repeats
Sync group String Test script sync group ID
#Test script Integer Number of commands in test script
lines
#Params/test Integer Number of parameters per test script command
script line
Cmd index Integer Test script command index
Cmd String Test script command name
Name of the command that is executed, e.g. MakeVoiceCall or
StartFTPTransfer.
Cmd String Test script command arguments
arguments Defines the arguments that are given to the command. From the NMF
version 2.31 on this is base64 coded zipped XML format.

Command request (CMDREQ)

Event ID CMDREQ
Cellular systems All
Record state Always
Description Recorded when the script engine executes a new line from the script.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Script CMD context ID Context Script CMD context ID
Cmd index Integer Test script command index
Cmd String Test script command name
Name of the command that is executed, e.g. MakeVoiceCall or
StartFTPTransfer.
Cmd arguments String Test script command arguments
Defines the arguments that are given to the command. From
the NMF version 2.31 on this is base64 coded zipped XML
format.

Command completed (CMDCOMP)

Event ID CMDCOMP
Cellular systems All
Record state Always
Description Recorded when the executed command is completed and there is a result for it.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Script CMD context ID Context Script CMD context ID
Cmd index Integer Test script command index
Cmd result Integer Test script command result
1 = Succeeded
2 = Failed
3 = Skipped
4 = User abort

Lock info (LOCK)

Event ID LOCK
Cellular systems GSM,UMTS FDD,UMTS TD-SCDMA,LTE FDD,LTE TDD,cdmaOne,CDMA 1x,EVDO
Record state Always
Description Recorded when any forcing function is activated or deactivated. This measurement event
is also written at the beginning of the measurement.
Tools Nemo Outdoor, Nemo Handy
|Parameters |Parameters for channel lock |Parameters for UMTS sector lock |Parameters for system lock |Parameters for band lock |Parameters for cell
barring |Parameters for handover suppression |Parameters for GSM handover forcing |Parameters for UMTS FDD handover forcing |Parameters for radio
state off |Parameters for LTE sector lock |Parameters for LTE handover forcing |Parameters for PLMN lock |Parameters for LTE carrier aggregation
disabled |

Parameters |Top|
Name Type Description
#Forcings Integer Number of active forcings
Lock type Integer Lock type
1 = Channel lock
2 = UMTS sector lock
This type is also used for UMTS carrier lock.
3 = System lock
4 = Band lock
5 = Cell barring
6 = Handover suppression
7 = GSM handover forcing
8 = UMTS FDD handover forcing
9 = Radio state off
10 = LTE sector lock
11 = LTE handover forcing
12 = PLMN lock
13 = LTE carrier aggregation disabled
#Params Integer Number of parameters

Parameters for UMTS sector lock |Top|

Name Type Description
Locked scr. Integer Locked scrambling code
This parameter is n/a for UMTS carrier lock.
Range: 0 – 511
Locked Integer Locked channel
channel
Locked band Integer Locked band
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA

Parameters for system lock |Top|

Name Type Description
Locked Integer Locked system
system 1 = GSM
5 = UMTS FDD
6 = UMTS TD-SCDMA
7 = LTE FDD
This is also used with NB-IoT.
8 = LTE TDD
10 = cdmaOne
11 = CDMA 1x
12 = EVDO

Parameters for band lock |Top|

Name Type Description
Band Integer Locked band
10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM
50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
60001 = UMTS TD-SCDMA 2000 band a
60002 = UMTS TD-SCDMA 1900 band b
60003 = UMTS TD-SCDMA 1900 band c
60004 = UMTS TD-SCDMA 2600 band d
60005 = UMTS TD-SCDMA 1900 band e
60006 = UMTS TD-SCDMA 2300 band f
69999 = UMTS TD-SCDMA
70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
80033 = LTE TDD 1900-1920 band 33
80034 = LTE TDD 2010-2025 band 34
80035 = LTE TDD 1850-1910 band 35
80036 = LTE TDD 1930-1990 band 36
80037 = LTE TDD 1910-1930 band 37
80038 = LTE TDD 2570-2620 band 38
80039 = LTE TDD 1880-1920 band 39
80040 = LTE TDD 2300-2400 band 40
80041 = LTE TDD 2496-2690 band 41
80042 = LTE TDD 3400-3600 band 42
80043 = LTE TDD 3600-3800 band 43
80044 = LTE TDD 703-803 band 44
80045 = LTE TDD 1447-1467 band 45
80046 = LTE TDD 5154-5925 band 46
80047 = LTE TDD 5855-5925 band 47
80048 = LTE TDD 3550-3700 band 48
80061 = LTE TDD 1447-1467 band 61
This is a non-standard LTE TDD band.
80062 = LTE TDD 1785-1805 band 62
This is a non-standard LTE TDD band.
80087 = LTE TDD 1447-1467 band 87
This is a non-standard LTE TDD band.
80088 = LTE TDD 1785-1805 band 88
This is a non-standard LTE TDD band.
89999 = LTE TDD
100000 = cdmaOne 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
100001 = cdmaOne 1900 band 1
North American PCS 1900 MHz band.
100002 = cdmaOne 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
100003 = cdmaOne 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
100004 = cdmaOne 1800 Korean band 4
Korean PCS 1800 MHz band.
100005 = cdmaOne 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
100006 = cdmaOne 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
100007 = cdmaOne 700 band 7
North American cellular 700 MHz band.
100008 = cdmaOne 1800 band 8
1800 MHz band.
100009 = cdmaOne 900 band 9
900 MHz band.
100010 = cdmaOne 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
100011 = cdmaOne 400 PAMR band 11
European PAMR 400 MHz band.
100012 = cdmaOne 800 PAMR band 12
European PAMR 800 MHz band.
100013 = cdmaOne 2500 band 13
2.5 GHz IMT-2000 extension.
100014 = cdmaOne 1900 band 14
US PCS 1.9 GHz.
100015 = cdmaOne 2100 AWS band 15
100016 = cdmaOne 2500 band 16
US 2.5 GHz.
100018 = cdmaOne 700 public safety band 18
100019 = cdmaOne 700 lower band 19
100020 = cdmaOne 1500 L-band band 20
100021 = cdmaOne 2000 S-band band 21
109999 = cdmaOne
110000 = CDMA 1x 800 band 0
North American cellular 800 MHz band, also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
110001 = CDMA 1x 1900 band 1
North American PCS 1900 MHz band.
110002 = CDMA 1x 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
110003 = CDMA 1x 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
110004 = CDMA 1x 1800 Korean band 4
Korean PCS 1800 MHz band.
110005 = CDMA 1x 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
110006 = CDMA 1x 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
110007 = CDMA 1x 700 band 7
North American cellular 700 MHz band.
110008 = CDMA 1x 1800 band 8
1800 MHz band.
110009 = CDMA 1x 900 band 9
900 MHz band.
110010 = CDMA 1x 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
110011 = CDMA 1x 400 PAMR band 11
European PAMR 400 MHz band.
110012 = CDMA 1x 800 PAMR band 12
European PAMR 800 MHz band.
110013 = CDMA 1x 2500 band 13
2.5 GHz IMT-2000 extension.
110014 = CDMA 1x 1900 band 14
US PCS 1.9 GHz.
110015 = CDMA 1x 2100 AWS band 15
110016 = CDMA 1x 2500 band 16
US 2.5 GHz.
110018 = CDMA 1x 700 public safety band 18
110019 = CDMA 1x 700 lower band 19
110020 = CDMA 1x 1500 L-band band 20
110021 = CDMA 1x 2000 S-band band 21
119999 = CDMA 1x
120000 = EVDO 800 band 0
North American cellular 800 MHz band. Also in Korea, Australia,
Hong Kong, China, Taiwan, and others.
120001 = EVDO 1900 band 1
North American PCS 1900 MHz band.
120002 = EVDO 900 TACS band 2
Total access communication system (TACS) 900 MHz band.
120003 = EVDO 800 JTACS band 3
JTACS 800 MHz band (Japanese 800 MHz reversed).
120004 = EVDO 1800 Korean band 4
Korean PCS 1800 MHz band.
120005 = EVDO 450 NMT band 5
Nordic mobile telephone (NMT) 450 MHz band.
120006 = EVDO 1900-2100 IMT band 6
IMT-2000 1900-2100 MHz band.
120007 = EVDO 700 band 7
North American cellular 700 MHz band.
120008 = EVDO 1800 band 8
1800 MHz band.
120009 = EVDO 900 band 9
900 MHz band.
120010 = EVDO 800 SMR band 10
Specialized mobile radio (SMR) 800 MHz band.
120011 = EVDO 400 PAMR band 11
European PAMR 400 MHz band.
120012 = EVDO 800 PAMR band 12
European PAMR 800 MHz band.
120013 = EVDO 2500 band 13
2.5 GHz IMT-2000 extension.
120014 = EVDO 1900 band 14
US PCS 1.9 GHz.
120015 = EVDO 2100 AWS band 15
120016 = EVDO 2500 band 16
US 2.5 GHz.
120018 = EVDO 700 public safety band 18
120019 = EVDO 700 lower band 19
120020 = EVDO 1500 L-band band 20
120021 = EVDO 2000 S-band band 21
129999 = EVDO

Parameters for cell barring |Top|

Name Type Description
Cell barring Integer Cell barring state
state 1 = Normal
2 = Ignored
3 = Reversed

Parameters for handover suppression |Top|

Name Type Description

Parameters for GSM handover forcing |Top|

Name Type Description
HO forcing Integer HO forcing target band
band 10850 = GSM 850
Band 850 is also known as band 800.
10900 = GSM 900
11800 = GSM 1800
11900 = GSM 1900
19999 = GSM
HO forcing Integer HO forcing target channel
channel
HO forcing Integer HO forcing target BSIC
BSIC This is the BSIC of the target cell.
Range: 0 – 63
Target RXL Float HO forcing target RX level bias
bias Unit: dBm
Target RXQ Integer HO forcing target quality bias
bias
Non-target Float HO forcing non-target RX level bias
RXL bias Unit: dBm
Non-target Integer HO forcing non-target quality bias
RXQ bias

Parameters for UMTS FDD handover forcing |Top|

Name Type Description
HO forcing Integer HO forcing target band
band 50001 = UMTS FDD 2100 band 1
50002 = UMTS FDD 1900 band 2
50003 = UMTS FDD 1800 band 3
50004 = UMTS FDD 2100 AWS band 4
50005 = UMTS FDD 850 band 5
Band 850 is also known as band 800.
50006 = UMTS FDD 850 band 6
50007 = UMTS FDD 2600 band 7
50008 = UMTS FDD 900 band 8
50009 = UMTS FDD 1800 band 9
50010 = UMTS FDD 2100 band 10
50011 = UMTS FDD 1400 band 11
50012 = UMTS FDD 700 band 12
50013 = UMTS FDD 700 band 13
50014 = UMTS FDD 700 band 14
50019 = UMTS FDD 850 band 19
50020 = UMTS FDD 800 band 20
50021 = UMTS FDD 1500 band 21
50022 = UMTS FDD 3500 band 22
50025 = UMTS FDD 1900 band 25
50026 = UMTS FDD 850 band 26
59999 = UMTS FDD
HO forcing Integer HO forcing target channel
channel
HO forcing Integer HO forcing target scrambling code
SC This is the scrambling code of the target cell.
Range: 0 – 511
Target RSCP Float HO forcing target RSCP bias
bias Unit: dBm
Target Ec/N0 Float HO forcing target Ec/N0 bias
bias Unit: dB
Non-target Float HO forcing non-target RSCP bias
RSCP bias Unit: dBm
Non-target Float HO forcing non-target Ec/N0 bias
Ec/N0 bias Unit: dB

Parameters for radio state off |Top|

Name Type Description

Parameters for LTE sector lock |Top|

Name Type Description
Locked PCI Integer Locked physical cell identity
Range: 0 – 503
Locked Integer Locked channel
channel
Locked band Integer Locked band
70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
80033 = LTE TDD 1900-1920 band 33
80034 = LTE TDD 2010-2025 band 34
80035 = LTE TDD 1850-1910 band 35
80036 = LTE TDD 1930-1990 band 36
80037 = LTE TDD 1910-1930 band 37
80038 = LTE TDD 2570-2620 band 38
80039 = LTE TDD 1880-1920 band 39
80040 = LTE TDD 2300-2400 band 40
80041 = LTE TDD 2496-2690 band 41
80042 = LTE TDD 3400-3600 band 42
80043 = LTE TDD 3600-3800 band 43
80044 = LTE TDD 703-803 band 44
80045 = LTE TDD 1447-1467 band 45
80046 = LTE TDD 5154-5925 band 46
80047 = LTE TDD 5855-5925 band 47
80048 = LTE TDD 3550-3700 band 48
80061 = LTE TDD 1447-1467 band 61
This is a non-standard LTE TDD band.
80062 = LTE TDD 1785-1805 band 62
This is a non-standard LTE TDD band.
80087 = LTE TDD 1447-1467 band 87
This is a non-standard LTE TDD band.
80088 = LTE TDD 1785-1805 band 88
This is a non-standard LTE TDD band.
89999 = LTE TDD

Parameters for LTE handover forcing |Top|

Name Type Description
HO forcing Integer HO forcing target band
band 70001 = LTE FDD 2100 band 1
70002 = LTE FDD 1900 band 2
70003 = LTE FDD 1800 band 3
70004 = LTE FDD 2100 AWS band 4
70005 = LTE FDD 850 band 5
Band 850 is also known as band 800.
70006 = LTE FDD 850 band 6
70007 = LTE FDD 2600 band 7
70008 = LTE FDD 900 band 8
70009 = LTE FDD 1800 band 9
70010 = LTE FDD 2100 band 10
70011 = LTE FDD 1400 band 11
70012 = LTE FDD 700 band 12
70013 = LTE FDD 700 band 13
70014 = LTE FDD 700 band 14
70017 = LTE FDD 700 band 17
70018 = LTE FDD 850 band 18
70019 = LTE FDD 850 band 19
70020 = LTE FDD 800 band 20
70021 = LTE FDD 1500 band 21
70022 = LTE FDD 3500 band 22
70023 = LTE FDD 2200 band 23
70024 = LTE FDD 1500 band 24
70025 = LTE FDD 1900 band 25
70026 = LTE FDD 850 band 26
70027 = LTE FDD 800 band 27
70028 = LTE FDD 700 band 28
70029 = LTE FDD 700 band 29
This is downlink only band.
70030 = LTE FDD 2350 band 30
70031 = LTE FDD 450 band 31
70032 = LTE FDD 1500 L-band
This is downlink only band.
70064 = LTE FDD 390-470 band 64
This is a non-standard LTE FDD band.
70065 = LTE FDD 2100 band 65
70066 = LTE FDD AWS-3 2100 band 66
70067 = LTE FDD 700 EU band 67
This is downlink only band.
70068 = LTE FDD 700 ME band 68
70069 = LTE FDD 2500 band 69
This is downlink only band.
70070 = LTE FDD AWS-4 band 70
70071 = LTE FDD 600 band 71
70252 = LTE FDD 5200 NII-1 band 252
70255 = LTE FDD 5700 NII-3 band 255
79999 = LTE FDD
80033 = LTE TDD 1900-1920 band 33
80034 = LTE TDD 2010-2025 band 34
80035 = LTE TDD 1850-1910 band 35
80036 = LTE TDD 1930-1990 band 36
80037 = LTE TDD 1910-1930 band 37
80038 = LTE TDD 2570-2620 band 38
80039 = LTE TDD 1880-1920 band 39
80040 = LTE TDD 2300-2400 band 40
80041 = LTE TDD 2496-2690 band 41
80042 = LTE TDD 3400-3600 band 42
80043 = LTE TDD 3600-3800 band 43
80044 = LTE TDD 703-803 band 44
80045 = LTE TDD 1447-1467 band 45
80046 = LTE TDD 5154-5925 band 46
80047 = LTE TDD 5855-5925 band 47
80048 = LTE TDD 3550-3700 band 48
80061 = LTE TDD 1447-1467 band 61
This is a non-standard LTE TDD band.
80062 = LTE TDD 1785-1805 band 62
This is a non-standard LTE TDD band.
80087 = LTE TDD 1447-1467 band 87
This is a non-standard LTE TDD band.
80088 = LTE TDD 1785-1805 band 88
This is a non-standard LTE TDD band.
89999 = LTE TDD
HO forcing Integer HO forcing target channel
channel
HO forcing Integer HO forcing target physical cell identity
PCI Range: 0 – 503

Parameters for PLMN lock |Top|

Name Type Description
PLMN Integer PLMN selection mode
selection 1 = Manual
mode 2 = Deregistered
MCC Integer Mobile country code
See ITU-T recommendation E.212.
Range: 0 – 999
MNC Integer Mobile network code
Range: 0 – 999

Parameters for LTE carrier aggregation disabled |Top|

Name Type Description

Device information (DEVI)

Event ID DEVI
Cellular systems All
Record state Always
Description Recorded when device information changes.
Tools Nemo Outdoor, Nemo Handy
|Parameters |

Parameters |Top|
Name Type Description
Battery temp. Float Battery temperature
Battery temperature in degree Celsius.
Unit: C
Battery charge Float Battery charge
Battery charge state in percents.
Range: 0 – 100
Unit: %
Battery status Integer Battery status
1 = Full
2 = Charging
3 = Not charging
4 = Discharging
5 = Failure
Device status Integer Device status
1 = Disconnected
3 = Connected
Device battery current Float Device battery current
Positive when the battery is charging.
Unit: A
CPU Float Device CPU usage
Range: 0 – 100
Unit: %

Power save mode (PSM)

Event ID PSM
Cellular systems All
Record state Always
Description Recorded when power save mode state changes.
Tools Nemo Outdoor
|Parameters |

Parameters |Top|
Name Type Description
PSM Integer Power save mode
1 = PSM
This is highest power save mode where the device is most
of the time in sleep. During this mode the diagnostic
interface may not work. See 3GPP TS 24.301 subclause
5.3.11 and 23.682 subclause 4.5.4.
10 = I-DRX
Idle DRX mode where the device wakes up to read paging
messages every now and then.
20 = Idle
30 = C-DRX
During connected DRX mode the device is using less power
than in connected mode and reads downlink indications
occasionally. Currently this is not implemented.
40 = Connected
Invex and Autonomous Probe health information (IHI)
Event ID IHI
Cellular systems All
Record state Always
Description Recorded when Invex or Autonomous Probe health information changes.
Tools Nemo Outdoor
|Parameters |Parameters for Invex I and II backplane. |Parameters for Invex I and II UIC. |Parameters for Invex II HIM. |Parameters for Autonomous Probe.
|

Parameters |Top|
Name Type Description
Invex module type Integer Invex module type
10 = Invex I backplane
11 = Invex I UIC
20 = Invex II backplane
21 = Invex II UIC
22 = Invex II HIM
30 = Autonomous Probe
#Params/module Integer Number of parameters per module type
type

Parameters for Invex I and II backplane. |Top|

Name Type Description
Chassis Integer Invex chassis number
BP voltage Float Invex backplane voltage
Unit: V
BP current Float Invex backplane current
Unit: A
BP temp. Float Invex backplane temperature
Unit: C
Invex battery Float Invex battery voltage
voltage Unit: V
Invex battery Float Invex battery current
current Unit: A
Invex battery Float Invex battery charge
charge Range: 0 – 100
Unit: %
Invex battery Integer Invex battery status
status 0 = Not used
4 = Discharging

Parameters for Invex I and II UIC. |Top|

Name Type Description
Chassis Integer Invex chassis number
UIC slot number Integer UIC slot number
UIC voltage Float Invex UIC voltage
Unit: V
UIC current Float Invex UIC current
Unit: A
UIC temp. Float Invex UIC temperature
Unit: C
Device Float Device connector current
connector Unit: A
current

Parameters for Invex II HIM. |Top|

Name Type Description
Chassis Integer Invex chassis number
HIM slot Integer HIM slot number
number
HIM voltage Float Invex HIM voltage
Unit: V
UE current Float UE current
Unit: A
HIM temp. Float Invex HIM temperature
Unit: C

Parameters for Autonomous Probe. |Top|

Name Type Description
Autonomous Float Autonomous Probe voltage
Probe voltage Unit: V
Autonomous Float Autonomous Probe system current
Probe system Unit: A
current
Autonomous Float Autonomous Probe input current
Probe input Unit: A
current
Temperature Float Autonomous Probe temperature
Unit: C
Charger status Integer Autonomous Probe backup battery charger status
0 = Off
1 = On

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