Scribd
Upload
232 views9 pages

NetNewman Config Steps

This document provides configuration steps for the Iu-CS, Iu-PS, Iub, and OMCB interfaces on a 3G mobile network. Key steps include: 1. Configuring signaling links and PVCs between the RNC and MGW for the Iu-CS interface. 2. Configuring signaling points, routes, and links between the RNC and SGSN for the Iu-PS interface. 3. Configuring signaling links, PVCs, and paths between the RNC and Node B for the Iub interface. 4. Configuring RF parameters, cells, and links for the Node B in the OMCB tool.

Uploaded by

fatehme
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as DOC, PDF, TXT or read online on Scribd
232 views9 pages

NetNewman Config Steps

This document provides configuration steps for the Iu-CS, Iu-PS, Iub, and OMCB interfaces on a 3G mobile network. Key steps include: 1. Configuring signaling links and PVCs between the RNC and MGW for the Iu-CS interface. 2. Configuring signaling points, routes, and links between the RNC and SGSN for the Iu-PS interface. 3. Configuring signaling links, PVCs, and paths between the RNC and Node B for the Iub interface. 4. Configuring RF parameters, cells, and links for the Node B in the OMCB tool.

Uploaded by

fatehme
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as DOC, PDF, TXT or read online on Scribd
You are on page 1/ 9

Iu-CS interface

1) RNC Config set  RNC Ground resource management  Transmission


Configuration  NE information Configuration  [ Right Click Create  CN office ]

Net element type MGW


Net element ID 4096
MNC 460
MCC 22

2) Basic config-1
Software Version

Double click on MGW


3) ATM office configuration
Connection mode Direct connect
ATM adress 000.000………………………3

4) Adjacent office configuration


Sub-service field National signaling point code
Signaling point code type SPC 24 bits
Main signaling point code 10
Subsignaling point code 10
Signaling point code 21

5) Signaling Link configuration

Basic Application protocol MTP3B


configuration
No.7 Link Signaling link set no
Signaling link N°
Attached module 108
SLC 0
PVC PVC ID 401
configuration CVPI/CVCI 1/51
Unit N° 13
ATM port N° 10
Direction Bi-direction
Bandwidth (Kbps) 4000

6) NE Information Configuration (Right Click) Create  CN office


Net Element type MSCServer
Net element ID 0
Default office flag in CS domain Yes

1
Double click on MSCSrever
7) ATM office Configuration
Connection mode Indirect connect

8) Adjacent office signaling link configuration


Signaling point type Signaling End point (SEP)
Protocole type ITU
Connection with local signaling point Associated mode
Subservice field National signaling point code
Signaling point code type SPC 24 bits
Main signaling point code 10
Subsignaling point code 10
Signaling point code 11

9) Adjacent office subsystem No.


Adjacent office ID 2 2
Subsystem No. RANAP SCCP management (SCMG)

10) Office route


Normal route No. 1 NB : Same route as MGW

2
Iu-PS interface

1) NE Information Configuration (Right Click) Create  CN office


Net Element type SGSN
Net element ID 0
Transmission Type ATM
Default office flag in PS domain Yes

Double click to open SGSN


2) ATM office configuration
Connection mode Direct connect

3) Adjacent office signaling point configuration


Application protocol MTP3B
Unit No. 13
ATM port 11
PVC Config.
CVPI/CVCI
Bandwidth

Double click RNC:0 (Local office)


4) Signaling link route
Signaling link route No. 2
Office ID 3 SGSN office ID

5) SGSN : Office route


Office route 2

6) Interface configuration  create


Step#1 Step#2
Board Type RPU APBE
IP address 136.1.1.1/32 137.1.1.2/32

7) RNC config set create: Global supplemented config


Subsystem No. of board reassembling IP 1
fragments
Unit No. of board reassembling IP 11
fragments
Sunit No. of board reassembling IP 1
Board : GIPI
fragments
Port : 1
Subsystem No. of GIPI dispatching IP 1
fragments
Unit No. of board dispatching IP fragments 11
Sunit No. of board dispatching IP 1
fragments

3
8) On the rack (hardware) Right click on RUB Service IP for DSP Batch create.

9) PVC config  create


PVC ID 404
PVC service type AAL5 Data
PVC interface type Iups
Subsystem No. 1
Unit No. 13
ATM port No. 11
CVPI/CVCI 1/54
Bandwidth 50 000

10) ATM and IP binding relation  create


PVC ID 404
Destination IP address 137.1.1.1/32

11) Static route create


Static route No. 1
Static route prefix 139.1.1.0/24
Next hope IP
Next hope IP 137.1.1.1

4
Iub interface

1) NE information configuration  create (Node B office)


Net element ID 10
Transmission ATM

2) IMA Group configuration  create IMA group


Right click on the created IMA group create 2E1 Links.

Double click on Node B office (to open)


3) ATM office configuration
Connection mode Direct connect
ATM address 10.10.10.000……………………000

4) signaling link configuration


Signaling Link No. 3 4 5
Signaling link of internal 1 2 3
number of ATM interface
board
Application protocol NBAP NBAP ALCAP
PVC ID 4001 4002 4003
CVPI/CVCI 1/60 1/61 1/62
CVI 32 33 34
Bandwidth 128 128 128

5) Node B port configuration


Port type NCP CCP
Signaling link 1 3 4

6) Path group configuration  create


Path group ID 2
Bandwidth 4000

7) Node B office – Path configuration


Path group ID 2
Transport path bear Type ATM
Bandwidth 2000

8) AAL2 Path configuration


PVC ID 4004
CVPI/CVCI 2/50
Bandwidth 2000

5
Radio Parameter configuration

1) RNC config set  create (Radio Resource managment)


2) Under Radio resource information : Node B configuration information  create
(Node B configuration information ) general node B
3)

6
OMCB : LMT-offline configuration

1) Node B  (Right click) config. Basic attribute


Node B ID : 10
ATM Address : 10.10.10……………………….0
Transmission Mode : ATM
2) Main Rack1
Configure the hardware ( BBU and RRU Boards)
3) Topology
Higher level : rack no.1
High level board : FS
Lower level : rack2
4) E1/T1 Link
Add 2 links E1
5) IMA parameter
Check (Enable) Link1 and Link2
6) AAL2 Link
Path ID 2
VPI/VCI 2/50
Bear Type IMA
Link owner RNC
Bandwidth 2000Kbps

7) AAL5 Link
NCP CCP ALCAP OMCB
VPI/VCI 1/60 1/61 1/62 1/33
Board name CC CC CC CC
Board Type IMA IMA IMA IMA
User Type Control port Communication port Bear ALCAP Bear IP
Bandwidth 128 128 128 128

8) RF Group
RF Group 0 1 2
R/T Indication Send Receive Receive
RX/TX Port0 Port0 Port1
ANT AN1 AN1 AN2

9) RF central frequency
Board Name RTR40
Radio mode WCDMA
Centre Frequency 2132.4 MHz

10) Local Cell


Local cell ID 1001
Type of transmission No diversity

7
TxRF group#1 Group(0)
Receiving Type Diversity
RxRF group#1 Group(1)
RxRF group#2 Group(2)

8
OMCB Configuration (NetNewmen)

1) Interface Configuration  Create interface


Board Type GIPI
Subsystem Module Unit Sunit 1:3:11:01
IP address 139.1.1.1/16

2) PVC Configuration  create PVC


PVC interface Type OMCB
PVC ID 4005
Subsystem/Unit/ATM port 1/5/1
CVPI/CVCI 1/33
Bandwidth 128

3) IP and IP binding relation  create


PVC ID 4005
Destination IP 140.0.0.30/32

4) Point to point port communication  create


Interface module No. 3 NB :
Interface subsystem No. 5 Board : DTP
Interface Unit No. 1 Port ETH : 1
Interface Sunit No. 1

5) Static route configuration  create


Static route No. 2
Static route prefix 140.0.0.30
Static route Subnet mask 155.255.255.255
Is next hope Interface 3/1/5/1/1/1

6) Global supplemented configuration (Double click)


OMCB server IP address 139.1.1.129

7) Create Base Station


Managed element ID 10
Managed element Type B8200 GU360
Managed element IP address 140.0.0.30
Software V4.08.20X

8) Upload offline LMT file.


9) Add the OMCB IP address in the server.
10) Add route in the server.

You might also like