SonicOS 7.0 Access Points
- SonicOS7.0
- About Access Points
- Settings
- Synchronize Access Points
- Provisioning Overview
- Creating/Modifying Provisioning Profiles
- Adding/Editing a Provisioning Profile - Getting Started
- General Settings for Provisioning Profiles
- 5GHz/2.4GHz Radio Basic Settings for Provisioning Profiles
- 5GHz/2.4GHz Radio Advanced Settings for Provisioning Profiles
- Sensor Settings for WIDP in Provisioning Profiles
- Mesh Network Settings for Provisioning Profiles
- 3G/4G/LTE WWAN Settings for Provisioning Profiles
- Bluetooth LE Settings for Provisioning Profiles
- Deleting Access Point Profiles
- Product Specific Configuration Notes
- Managing Access Point Objects
- Firmware Management
- Floor Plan View
- Station Status
- Intrusion Detection Services
- Advanced IDP
- Packet Capture
- Virtual Access Points
- RF Monitoring
- RF Analysis
- RF Spectrum
- FairNet
- Wi-Fi Multimedia
- 3G/4G/LTE WWAN
- Bluetooth LE Devices
- Radio Management
- SonicWall Support
Configuring the RSSI Threshold
In areas large enough to require multiple access points to provide good WiFi coverage across the whole area, you would expect a WiFi client to detect and move to the closest access point. Unfortunately, many WiFi clients tend to hang on to the original access point they associated with, rather than moving to a nearby access point that would generally be a better choice for them. This is referred to as sticky behavior and results in a low RSSI (Received Signal Strength Indicator) and a high SNR (Signal-to-Noise Ratio). The farther away from the original access point the client moves, the weaker its RSSI gets and the worse its SNR gets. Retransmissions occur, dynamic rate-shifting happens, and the client communicates at a much lower data-rate. A lower data-rate consumes more air-time to transfer the same information, resulting in higher channel utilization. Ideally, the client would roam to the closest access point, and the resulting RF space would be better for everyone.
RSSI thresholds are supported. When the client reaches a certain RSSI level from the perspective of the access point, the access point disassociates from the client and the client then associates to a closer access point. The RSSI threshold is configurable.
RSSI measurements represent the relative quality of a received signal on a device after any possible loss at the antenna and cable level. The higher the RSSI value, the stronger the signal. When measured in negative numbers, the number that is closer to zero usually means better signal. As an example, -50 dBm is a pretty good signal, -75 dBm is fairly reasonable, and -100 dBm is no signal at all.
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