Optimizer

Report
SITE SURVEY ATIVO - SUZANO INOCENCIA FINAL

10/16/2024
SITE SURVEY ATIVO - SUZANO INOCENCIA FINAL
Table of contents

Table of contents
Next steps to the great Wi-Fi 3

Access point configuration changes 7

Network configuration changes 10

Rogue APs 11
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Next steps to the great Wi-Fi

Next steps to the great Wi-Fi

We have automatically analyzed your network based on the survey data, and in this report you will find summary
findings and exact configuration changes recommended to resolve potential issues.

Improve primary coverage

Primary coverage is all about optimizing the distance around your wireless access points (APs) to ensure there
is sufficient signal strength for Wi-Fi-enabled devices to connect and transmit data. For many devices, a signal
strength of -67 dBm represents the lower limit of a healthy signal. Different wall materials and physical
obstacles absorb Wi-Fi at different rates so it's always important to design your network based on your
requirements for primary coverage. Here are some suggestions for improving primary coverage:

Check your controller to ensure all your APs & antennas are installed correctly, online, and broadcasting.

Increase transmitting power to 14-17dBm (25-50mW) if currently lower.

Improve secondary coverage

Secondary coverage is critical to ensure you have great roaming between APs and redundancy in the event an
AP has a failure. Here are some suggestions for improving secondary coverage:

Check your dashboard to ensure all your APs & antennas are installed correctly, online, and broadcasting.

Increase transmitting power to 14-17dBm (25-50mW) if currently lower.

Reduce channel interference

An effective channel plan ensures client devices can connect with access points efficiently and without
unnecessary degradation of performance. For the best results, minimize channel overlap and adjacent channel
interference in order to maximize airtime, which is one of the foundations of high-performing Wi-Fi networks.
Here are some channel planning best practices:

Reduce your channel widths to the next available size to create more channels and reduce contention.

Remove rogue and interfering APs that may be adding unnecessary contention.

Utilize all the channels that are available for your specific frequency and region (as long as your access
points and client devices support them).
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Next steps to the great Wi-Fi

Improve signal to noise ratio

SNR is a component of signal strength and coverage and plays an important role in the data rates and
throughput that can be achieved by users in a given area. SNR is impacted not only by the distance away from
an access point, but also by the amount of interference adding noise and degrading the signal. A user's device
may have enough signal to send and receive information like loading web pages or sending emails, but if the
SNR is too low, it could cause certain data-hungry applications like video calling to fail. Here are some
suggestions for improving SNR in your network:

Check your dashboard to ensure all your APs & antennas are installed correctly, online, and broadcasting.

Increase transmitting power to 14-17dBm (25-50mW) if currently lower.

Remove any rogue interference devices that may be adding unnecessary noise and thereby lowering your
SNR.

Mitigate rogue APs

Rogue access points are unauthorized wireless access points which are present on your floor plan but do not
belong to your network. The risks associated with rogue access points include unauthorized access, network
congestion and interference. You can easily detect and locate rogue access points by periodically doing a survey
with Sidekick 2. Here are some tips for identifying and removing rogue devices:

Survey the network with Ekahau Survey mobile app and Sidekick 2.

Remove all APs that do not belong to your Wi-Fi network to reduce interference and mitigate potential
security risks.

Adjust channel widths

It's important to carefully consider your network requirements and environment before selecting a channel
width. Wider channel widths can result in a shorter range, more susceptibility to interference and may not be
compatible with all Wi-Fi client devices. For most enterprise-type deployments with many APs in 2.4 Ghz and 5
Ghz bands, narrow 20 MHz Wi-Fi channels will give you the spatial reuse you need for your WLAN to perform
optimally by reducing noise and possible channel interference. For 6E deployments, if your region has access to
the full 1.2 GHz of 6 GHz spectrum, use 80MHz, anywhere else that has 500 MHz or less use 20/40 MHz.

6 GHz: Use 80MHz (If you have access to full 1.2GHz of 6GHz) or 20/40 MHz (If you have access to
500MHz of 6GHz or less) wide channels.

5 GHz: Use 20 MHz (high density) or 40 MHz (low density) wide channels.

2.4 GHz: Use 20 MHz wide channels.

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Next steps to the great Wi-Fi

Change MFP settings

Management frame protection (MFP) is a security feature that adds an extra layer of protection to the
management frames of Wi-Fi devices, such as authentication and association frames. In general, if security is a
top priority for your Wi-Fi network, enabling MFP is a good idea. However, if you have older devices or devices
that don't support MFP, you may need to consider the tradeoffs and make a decision that best balances security
and compatibility. Note: For Wi-Fi 6E networks, MFP will always be enabled.

Use MFP only on the 6 GHz band, unless you know your devices support it on 2.4 or 5 GHz.

Great minimum basic rate (MBR)

Data rate is the speed that data can be transmitted in your network. Allowing low rates can cause client devices
to cling to a particular access point even if it's far away, monopolizing network resources and reducing overall
performance for all nearby clients. It can also set the speed that overhead management frames get passed,
again unnecessarily slowing down network performance. By disabling low data rates, you can ensure client
devices will only connect to an access point when they are close enough to receive an adequate signal. It's also
a nice way to disable legacy devices that don't meet the minimum rate.

To reduce network overhead from non-data frames, set your minimum basic rate (MBR) to 12 Mbps for
lower density networks or 24 Mbps for higher density networks.

Disable all rates below the MBR.

Support all rates above MBR.

Change encryption settings

Securing your Wi-Fi network is essential for protecting sensitive information and preventing unauthorized
access. We recommend WPA2 Enterprise for your corporate networks and WPA2 personal for guest networks in
2.4 GHz and 5 GHz bands. For networks in the 6 GHz band, we recommend WPA3 Enterprise/Personal.

Use WPA2 or WPA3 to ensure sufficient network security.

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Next steps to the great Wi-Fi

Change your SSIDs configuration

If the same network name is used across frequency bands, some of your client devices may opt for the 2.4 GHz
network, even if the 5 or 6 GHz network is faster and more reliable. To address this issue, assign a unique name
to each network for each frequency. For example, you can name them "MyNetwork-2.4GHz", "MyNetwork-5GHz",
"MyNetwork-6GHz". This will enable you to identify the network and frequency you're using and ensure that your
devices are connected to the best possible network. Here are some more tips:

Broadcast business critical SSIDs on a single frequency band to improve roaming and connectivity.

Broadcast no more than 5 SSIDs on a single frequency band to reduce overhead.

Prioritize the 5 and 6 GHz bands for business critical SSIDs.

Avoid using hidden SSID names (marked as “Unknown” SSIDs).

Mitigate interferers
Interferers are devices other than APs that can significantly impact your network performance and compromise
security. These can include common everyday devices like microwaves, radars, and BLE devices, as well as
undesired and security-threatening devices such as jammers and wireless cameras. Here are some suggestions
for mitigating interferers:

Review the Security report to assess the severity of interferers detected in your environment.

If possible, remove any interferers that are affecting your network

If removing interferers is not feasible, make the necessary adjustments to your network configurations,
including implementing a proper channel plan.
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Access point configuration changes

Access point configuration changes

Device Radio Band (GHz) Channel width (MHz) Channel TX power (dBm) Radio ON/OFF

AP-09.023
Radio 2 2.4 20 1 19 8 ON
03 - PORTARIA FERROVIÁRIA

AP-01.025
Radio 1 2.4 20 1 19 ON OFF
04 - PREDIO ADMINISTRATIVO

AP-03.019
Radio 2 2.4 20 1 19 ON
05 - OFICINA EMPILHADEIRAS

AP-03.006
Radio 2 2.4 20 1 7 ON OFF
07 - ARMAZEM DE CELULOSE

AP-02.011
Radio 1 2.4 20 1 4 ON OFF
07 - ARMAZEM DE CELULOSE

Measured AP-d8:c3
Radio 2 2.4 20 1 10 ON OFF
07 - ARMAZEM DE CELULOSE

Measured AP-48:40
Radio 2 2.4 20 1 6 8 ON
09 - APOIO CAMINHONEIRO

AP-01.018
Radio 1 2.4 20 6 1 20 ON
04 - PREDIO ADMINISTRATIVO

AP-02.012
Radio 2 2.4 20 6 11 6 17 ON
07 - ARMAZEM DE CELULOSE

AP-02.005
Radio 2 2.4 20 6 9 17 ON
07 - ARMAZEM DE CELULOSE

AP-04.009
Radio 1 2.4 20 6 11 6 14 ON
07 - ARMAZEM DE CELULOSE

AP-04.008
Radio 1 2.4 20 6 1 9 17 ON
07 - ARMAZEM DE CELULOSE

Measured AP-f8:20
Radio 2 2.4 20 11 6 18 8 ON
01 - REFEITORIO

AP-08.02
Radio 1 2.4 20 11 1 18 8 ON
02 - PORTARIA RODOVIÁRIA

AP-04.007
Radio 2 2.4 20 11 7 ON OFF
07 - ARMAZEM DE CELULOSE

AP-05.004
Radio 2 2.4 20 11 7 ON OFF
07 - ARMAZEM DE CELULOSE

AP-03.010
Radio 1 2.4 20 11 4 ON OFF
07 - ARMAZEM DE CELULOSE

Measured AP-ea:20
Radio 1 2.4 20 11 1 18 ON
08 - ALMOXARIFADO FERROVIÁRIO
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Access point configuration changes

Device Radio Band (GHz) Channel width (MHz) Channel TX power (dBm) Radio ON/OFF

Measured AP-e1:e0
Radio 1 2.4 20 11 18 ON OFF
09 - APOIO CAMINHONEIRO

Measured AP-f8:20
Radio 1 5 40 20 36 44 17 11 ON
01 - REFEITORIO

AP-01.025
Radio 2 5 40 20 36 60 17 ON
04 - PREDIO ADMINISTRATIVO

Measured AP-e1:e0
Radio 2 5 40 20 36 17 ON
09 - APOIO CAMINHONEIRO

AP-03.019
Radio 1 5 40 20 40 36 17 ON
05 - OFICINA EMPILHADEIRAS

AP-01.006
Radio 1 5 40 20 44 36 17 ON
04 - PREDIO ADMINISTRATIVO

AP-01.018
Radio 2 5 40 20 64 52 16 17 ON
04 - PREDIO ADMINISTRATIVO

Measured AP-ea:20
Radio 2 5 40 20 64 36 16 17 ON
08 - ALMOXARIFADO FERROVIÁRIO

AP-04.007
Radio 1 5 40 20 104 52 15 17 ON
07 - ARMAZEM DE CELULOSE

AP-03.010
Radio 2 5 40 20 108 149 6 17 ON
07 - ARMAZEM DE CELULOSE

AP-03.006
Radio 1 5 40 20 128 44 16 17 ON
07 - ARMAZEM DE CELULOSE

Measured AP-48:40
Radio 1 5 20 132 52 14 ON
09 - APOIO CAMINHONEIRO

AP-09.023
Radio 1 5 40 20 136 36 23 14 ON
03 - PORTARIA FERROVIÁRIA

AP-05.004
Radio 1 5 40 20 136 124 15 17 ON
07 - ARMAZEM DE CELULOSE

AP-04.009
Radio 2 5 40 20 136 108 6 17 ON
07 - ARMAZEM DE CELULOSE

AP-02.011
Radio 2 5 40 20 149 60 5 17 ON
07 - ARMAZEM DE CELULOSE

Measured AP-d8:c3
Radio 1 5 40 20 149 108 17 ON
07 - ARMAZEM DE CELULOSE

AP-04.008
Radio 2 5 40 20 149 144 23 ON
07 - ARMAZEM DE CELULOSE

AP-08.02
Radio 2 5 40 20 161 36 23 11 ON
02 - PORTARIA RODOVIÁRIA

AP-02.012
Radio 1 5 40 20 161 100 11 17 ON
07 - ARMAZEM DE CELULOSE
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Access point configuration changes

Device Radio Band (GHz) Channel width (MHz) Channel TX power (dBm) Radio ON/OFF

AP-02.005
Radio 1 5 40 20 161 116 17 ON
07 - ARMAZEM DE CELULOSE
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Network configuration changes

Network configuration changes

Management frame Minimum basic
SSID Band (GHz) Encryption
protection (MFP) rate (Mbps)

SZ-Byod SZ-Byod_2.4 2.4 WPA2 (802.1X) OFF 24

SZ-Byod 5 WPA2 (802.1X) OFF 24

SZ-Coletores SZ-Coletores_2.4 2.4 WPA2 (802.1X) OFF 24

SZ-Coletores 5 WPA2 (802.1X) OFF 24

SZ-IoT SZ-IoT_2.4 2.4 WPA2 (802.1X) OFF 24

SZ-IoT 5 WPA2 (802.1X) OFF 24

SZ-IoT-MAB 2.4 WPA2 (PSK) OFF 24

SZ-Visitantes SZ-Visitantes_2.4 2.4 open WPA3 OFF 24

SZ-Visitantes 5 open WPA3 OFF 24

Suzano Suzano_2.4 2.4 WPA2 (802.1X) OFF 24

Suzano 5 WPA2 (802.1X) OFF 24

suzano suzano_2.4 2.4 WPA3 (802.1X) ON OFF 24

suzano 5 WPA3 (802.1X) ON OFF 24

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Rogue APs

Rogue APs
Device Floor SSIDs

Measured AP-27:75 07 - ARMAZEM DE CELULOSE GoAwake_308100143

Measured AP-4e:2c 07 - ARMAZEM DE CELULOSE WiFi RJT8D13 547, WiFi RJT8D13 547 5G

Measured AP-5a:0c 03 - PORTARIA FERROVIÁRIA MyWiFi8797

Measured AP-6d:97 07 - ARMAZEM DE CELULOSE GoAwake_405130142

Measured AP-6d:c4 07 - ARMAZEM DE CELULOSE Galaxy A3293FF

Measured AP-74:b3 07 - ARMAZEM DE CELULOSE VTG1HW

Measured AP-79:34 07 - ARMAZEM DE CELULOSE GoAwake_403120149

Measured AP-89:73 04 - PREDIO ADMINIS… DESKTOP-DKM5O1S 5064

Measured AP-94:5e 07 - ARMAZEM DE CELULOSE GoAwake_405130192