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ARM Adaptive Radio Management. ARM dynamically monitors and adjusts the network to ensure that all users are allowed ready access. It enables full utilization of the available spectrum to support maximum number of users by intelligently choosing the best RF channel and transmit power for APs in their current RF environment. is a radio frequency management technology that optimizes WLAN Wireless Local Area Network. WLAN is a 802.11 standards-based LAN that the users access through a wireless connection. performance even in the networks with highest traffic by dynamically and intelligently choosing the best 802.11 802.11 is an evolving family of specifications for wireless LANs developed by a working group of the Institute of Electrical and Electronics Engineers (IEEE). 802.11 standards use the Ethernet protocol and Carrier Sense Multiple Access with collision avoidance (CSMA/CA) for path sharing. channel and transmitting power for each Instant Access Point (IAP) in its current RF Radio Frequency. RF refers to the electromagnetic wave frequencies within a range of 3 kHz to 300 GHz, including the frequencies used for communications or Radar signals. environment. ARM works with all standard clients, across all operating systems, while remaining in compliance with the IEEE Institute of Electrical and Electronics Engineers. 802.11 standards. It does not require any proprietary client software to achieve its performance goals. ARM ensures low-latency roaming, consistently high performance, and maximum client compatibility in a multi-channel environment. By ensuring the fair distribution of available Wi-Fi Wi-Fi is a technology that allows electronic devices to connect to a WLAN network, mainly using the 2.4 GHz and 5 GHz radio bands. Wi-Fi can apply to products that use any 802.11 standard. bandwidth to mobile devices, ARM ensures that data, voice, and video applications have sufficient network resources at all times. ARM allows mixed 802.11a 802.11a provides specifications for wireless systems. Networks using 802.11a operate at radio frequencies in the 5 GHz band. The specification uses a modulation scheme known as orthogonal frequency-division multiplexing (OFDM) that is especially well suited to use in office settings. The maximum data transfer rate is 54 Mbps., b, g, n, and ac client types to inter operate at the highest performance levels.
When ARM is enabled, an IAP dynamically scans all 802.11 channels within its 802.11 regulatory domain at regular intervals and sends reports on WLAN coverage, interference, and intrusion detection to the virtual controller. ARM computes coverage and interference metrics for each valid channel, chooses the best performing channel, and transmit power settings for each IAP RF environment. Each IAP gathers other metrics on its ARM-assigned channel to provide a snapshot of the current RF health state.
IAPs support the following ARM features:
- Channel or Power Assignment—Assigns channel and power settings for all the IAPs in the network according to changes in the RF environment.
- Voice Aware Scanning—Improves voice quality by preventing an IAP from scanning for other channels in the RF spectrum during a voice call and by allowing an IAP to resume scanning when there are no active voice calls.
- Load Aware Scanning—Dynamically adjusts the scanning behavior to maintain uninterrupted data transfer on resource intensive systems when the network traffic exceeds a predefined threshold.
- Band Band refers to a specified range of frequencies of electromagnetic radiation. Steering—Assigns the dual-band capable clients to the 5 GHz Gigahertz. band on dual-band IAPs thereby reducing co-channel interference and increasing the available bandwidth for dual-band clients.
- Client Match—Continually monitors the RF neighborhood of the client to support the ongoing band steering and load balancing of channels, and enhanced IAP reassignment for roaming mobile clients.
When Client Match is enabled on 802.11n 802.11n is a wireless networking standard to improve network throughput over the two previous standards, 802.11a and 802.11g. With 802.11n, there will be a significant increase in the maximum raw data rate from 54 Mbps to 600 Mbps with the use of four spatial streams at a channel width of 40 MHz. capable IAPs, the Client Match feature overrides any settings configured for the legacy band steering, station hand-off assist or load balancing features. The 802.11ac 802.11ac is a wireless networking standard in the 802.11 family that provides high-throughput WLANs on the 5 GHz band. capable IAPs do not support the legacy band steering, station hand off or load balancing settings, so these IAPs must be managed using Client Match.
- Airtime Fairness—Provides equal access to all clients on the wireless medium, regardless of client type, capability, or operating system to deliver uniform performance to all clients.
The following table explains the power setting scenarios for all the IAPs in the network:
Table 1: Power Setting Scenarios
| Scenario | Result |
|---|---|
|
For the radio profile, the RF Zone is not set and the Customize ARM Power Range check box is unchecked in the Radios > RF > Radio page of the WebUI. |
The Min Transmit Power and Max Transmit Power range on Radios > RF > Adaptive Radio Management (ARM) > Access Point Control page takes effect. |
|
For the radio profile, the RF Zone is not set and the Customize ARM Power Range check box is checked in the Radios > RF > Radio page of the WebUI. |
The Min Transmit Power and Max Transmit Power range on Radios > RF > Radio page for the individual default radio profiles takes effect. |
|
For the radio profile, the RF Zone is set and the Customize ARM Power Range check box is unchecked in the Radios > RF > Radio page of the WebUI. |
The Min Transmit Power and Max Transmit Power range on Radios > RF > Adaptive Radio Management (ARM) > Access Point Control page takes effect. |
|
For the radio profile, the RF Zone is set and the Customize ARM Power Range check box is checked in the Radios > RF > Radio page of the WebUI. |
The power range within the specific RF Zone radio profiles takes effect. |
For more information on configuring ARM features, see Configuring ARM Features for Instant APs in AOS-8.
For more information on configuring radio parameters, see Configuring Radio Parameters.
For more information on ARM features supported by the APs, see the Aruba Instant User Guide.
