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show rf dot11a-radio-profile

show rf dot11a-radio-profile [<profile>]

Description

Show an 802.11a802.11a 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. radio profile.

Syntax

Parameter

Description

<profile>

Name of an 802.11a802.11a 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. profile.

Usage Guidelines

Issue this command without the <profile> parameter to display the entire 802.11a802.11a 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. Radio profile list, including profile status and the number of references to each profile. Include a profile name to display detailed configuration information for that profile.

Examples

The example below shows that the controller has three configured 802.11a802.11a 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. Radio profiles. The References column lists the number of other profiles with references to the 802.11a802.11a 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. Radio profile, and the Profile Status column indicates whether the profile is predefined. User-defined profiles will not have an entry in the Profile Status column.

(host)[mynode]# show rf dot11a-radio-profile

802.11a radio profile List

--------------------------

Name References Profile Status

---- ---------- --------------

default 18

default-AP85 1

test 1

 

Total:3.

This example displays the configuration settings for the profile default.

(host) # show rf dot11a-radio-profile default

802.11a radio profile "default"

Parameter Value

--------- -----

Radio enable Enabled

Mode ap-mode

High throughput enable (radio) Enabled

Very high throughput enable (radio) Enabled

Channel N/A

Transmit EIRP 15 dBm

Non-Wi-Fi Interference Immunity 2

Supr Immunity 0

Enable CSA Disabled

CSA Count 4

Spectrum Monitoring Enabled

Spectrum Monitoring Profile default-a

Advertise 802.11d and 802.11h Capabilities Disabled

Spectrum Load Balancing Disabled

Spectrum Load Balancing Mode channel

Spectrum Load Balancing Update Interval (sec) 30 seconds

Spectrum Load Balancing Threshold (%) 20 percent

Spectrum Load Balancing Domain N/A

Beacon Period 100 msec

Beacon Regulate Disabled

Advertized regulatory max EIRP 0

ARM/WIDS Override OFF

Reduce Cell Size (Rx Sensitivity) 0 dB

Energy Detect Threshold Offset 0 dB

Management Frame Throttle interval 1 sec

Management Frame Throttle Limit 20

Maximum Distance 0 meters

RX Sensitivity Threshold 0 dB

RX Sensitivity Tuning Based Channel Reuse disable

Set to Radar Test Mode disabled

Adaptive Radio Management (ARM) Profile default

High-throughput Radio Profile default-a

AM Scanning Profile default

Enable frame transmissions Enabled

Max Channel Bandwidth 80MHz

Max EIRP 18 dBm

Min EIRP 12 dBm

EIRP Offset 0 dBm

deploy-hour N/A

The output of this command includes the following parameters:

Parameter

Description

Radio enable

Shows if the AP has enabled or disabled transmissions on this radio bandBand refers to a specified range of frequencies of electromagnetic radiation..

Mode

Access Point operating mode. Available options are:

am-mode: Air Monitor mode

ap-mode: Access Point mode

apm-mode: Access Point Monitor mode

sensor-mode: RFprotect sensor mode

High throughput enable (radio)

Shows if high-throughput (802.11n802.11n 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.) is enabled on the radio.

A high-throughput profile manages 40 Mhz tolerance settings, and controls whether or not APs using this profile will advertise intolerance of 40 MHzMegahertz operation. (This option is disabled by default, allowing 40 MHzMegahertz operation.)

A high-throughput profile also determines whether an AP radio using the profile will stop using the 40 MHzMegahertz channels surrounding APs or stations advertise 40 Mhz intolerance. This option is enabled by default.

Very high throughput enable (radio)

Enable or disable support for Very High Throughput (802.11ac802.11ac is a wireless networking standard in the 802.11 family that provides high-throughput WLANs on the 5 GHz band.) on the radio. This option is enabled by default.

Channel

Channel number for the AP 802.11a802.11a 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., 802.11n802.11n 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., or 802.11ac802.11ac is a wireless networking standard in the 802.11 family that provides high-throughput WLANs on the 5 GHz band. physical layer.

Transmit EIRPEffective Isotropic Radiated Power or Equivalent Isotropic Radiated Power. EIRP refers to the output power generated when a signal is concentrated into a smaller area by the Antenna.

Maximum transmit power (EIRPEffective Isotropic Radiated Power or Equivalent Isotropic Radiated Power. EIRP refers to the output power generated when a signal is concentrated into a smaller area by the Antenna.) in dBmDecibel-Milliwatts. dBm is a logarithmic measurement (integer) that is typically used in place of mW to represent receive-power level. AMP normalizes all signals to dBm, so that it is easy to evaluate performance between various vendors. from 0 to 51 in .5 dBmDecibel-Milliwatts. dBm is a logarithmic measurement (integer) that is typically used in place of mW to represent receive-power level. AMP normalizes all signals to dBm, so that it is easy to evaluate performance between various vendors. increments. Further limited by regulatory domain constraints and AP capabilities.

Non-Wi-FiWi-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. Interference Immunity

Sets a value for 802.11802.11 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. Interference Immunity. The default setting for this parameter is level 2. When performance drops due to interference from non-802.11802.11 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. interferers (such as DECT or Bluetooth devices), the level can be increased up to level 5 for improved performance. However, increasing the level makes the AP slightly “deaf” to its surroundings, causing the AP to lose a small amount of range.

The levels for this parameter are:

Level-0: no ANI adaptation.

Level-1: noise immunity only.

Level-2: noise and spur immunity. This is the default setting

Level-3: level 2 and weak OFDMOrthogonal Frequency Division Multiplexing. OFDM is a scheme for encoding digital data on multiple carrier frequencies. immunity.

Level-4: level 3 and FIR immunity.

Spur Immunity

Displays the spur immunity value for 802.11a802.11a 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. radio.

NOTE: This parameter is applicable for 130 Series access points only. The controller ignores this parameter if configured for non-130 Series access points.

Enable CSAChannel Switch Announcement. The CSA element enables an AP to advertise that it is switching to a new channel before it begins transmitting on that channel. This allows the clients, which support CSA, to transition to the new channel with minimal downtime.

Shows if CSAs are enabled or disabled. CSAs, as defined by IEEEInstitute of Electrical and Electronics Engineers. 802.11h802.11h is intended to resolve interference issues introduced by the use of 802.11a in some locations, particularly with military Radar systems and medical devices. Dynamic Frequency Selection (DFS) detects the presence of other devices on a channel and automatically switches the network to another channel if and when such signals are detected. Transmit Power Control (TPC) reduces the radio frequency (RF) output power of each network transmitter to a level that minimizes the risk of interference., enable an AP to announce that it is switching to a new channel before it begins transmitting on that channel. This allows clients that support CSAChannel Switch Announcement. The CSA element enables an AP to advertise that it is switching to a new channel before it begins transmitting on that channel. This allows the clients, which support CSA, to transition to the new channel with minimal downtime. to transition to the new channel with minimal downtime.

CSAChannel Switch Announcement. The CSA element enables an AP to advertise that it is switching to a new channel before it begins transmitting on that channel. This allows the clients, which support CSA, to transition to the new channel with minimal downtime. Count

Number of channel switch announcements that must be sent prior to switching to a new channel. The default CSAChannel Switch Announcement. The CSA element enables an AP to advertise that it is switching to a new channel before it begins transmitting on that channel. This allows the clients, which support CSA, to transition to the new channel with minimal downtime. count is 4 announcements.

Spectrum Monitoring

If enabled, the AP operates as a hybrid AP that can simultaneously serve clients and monitor a single channel for spectrum analysis data.

Spectrum Monitoring Profile

The spectrum monitoring profile referenced by APs using this 802.11a802.11a 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. radio profile. For details, see rf spectrum-profile

Advertise 802.11d802.11d is a wireless network communications specification for use in countries where systems using other standards in the 802.11 family are not allowed to operate. Configuration can be fine-tuned at the Media Access Control (MAC) layer level to comply with the rules of the country or district in which the network is to be used. Rules are subject to variation and include allowed frequencies, allowed power levels, and allowed signal bandwidth. 802.11d facilitates global roaming. and 802.11h802.11h is intended to resolve interference issues introduced by the use of 802.11a in some locations, particularly with military Radar systems and medical devices. Dynamic Frequency Selection (DFS) detects the presence of other devices on a channel and automatically switches the network to another channel if and when such signals are detected. Transmit Power Control (TPC) reduces the radio frequency (RF) output power of each network transmitter to a level that minimizes the risk of interference. Capabilities

If enabled, the radio advertises its 802.11d802.11d is a wireless network communications specification for use in countries where systems using other standards in the 802.11 family are not allowed to operate. Configuration can be fine-tuned at the Media Access Control (MAC) layer level to comply with the rules of the country or district in which the network is to be used. Rules are subject to variation and include allowed frequencies, allowed power levels, and allowed signal bandwidth. 802.11d facilitates global roaming. (Country Information) and 802.11h802.11h is intended to resolve interference issues introduced by the use of 802.11a in some locations, particularly with military Radar systems and medical devices. Dynamic Frequency Selection (DFS) detects the presence of other devices on a channel and automatically switches the network to another channel if and when such signals are detected. Transmit Power Control (TPC) reduces the radio frequency (RF) output power of each network transmitter to a level that minimizes the risk of interference. (Transmit Power Control) capabilities.

Spectrum load balancing

The Spectrum load balancing feature helps optimize network resources by balancing clients across channels, regardless of whether the AP or the controller is responding to the wireless clients' probe requests.

If enabled, the controller compares whether or not an AP has more clients than its neighboring APs on other channels. If an AP’s client load is at or over a predetermined threshold as compared to its immediate neighbors, or if a neighboring Aruba AP on another channel does not have any clients, load balancing will be enabled on that AP. This feature is disabled by default.

Spectrum load balancing mode

SLB Mode allows control over how to balance clients. Channel-based load-balancing balances clients across channels. Radio-based load-balancing distributes clients across radios on the same bandBand refers to a specified range of frequencies of electromagnetic radiation., independent of channels.

Spectrum load balancing mode update interval

This parameter specifies how often spectrum load balancing calculations are made (in seconds). The default value is 30 seconds.

Spectrum load balancing threshold

If the spectrum load balancing feature is enabled, this parameter controls the percentage difference between number of clients on a channel channel that triggers load balancing. The default value is 20%, meaning that spectrum load balancing is activated when there are 20% more clients on one channel than on another channel used by the AP radio.

Spectrum load balancing domain

Define a spectrum load balancing domain to manually create RFRadio 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. neighborhoods.

Use this option to create RFRadio 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. neighborhood information for networks that have disabled ARMAdaptive 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. scanning and channel assignment.

If spectrum load balancing is enabled in a 802.11a802.11a 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. radio profile but the spectrum load balancing domain is not defined, ArubaOS uses ARMAdaptive 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. to calculate RFRadio 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. neighborhoods.

If spectrum load balancing is enabled in a 802.11a802.11a 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. radio profile and a spectrum load balancing domain isalso defined, AP radios belonging to the same spectrum load balancing domain will be considered part of the same RFRadio 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. neighborhood for load balancing, and will not recognize RFRadio 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. neighborhoods defined by ARMAdaptive 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. .

Beacon Period

Time, in milliseconds, between successive beacon transmissions. The beacon advertises the AP’s presence, identity, and radio characteristics to wireless clients.

Beacon Regulate

If enabled, this option introduces randomness in the beacon generation so that multiple APs on the same channel do not send beacons at the same time, which causes collisions over the air. This option is disabled by default.

Advertised Regulatory Max EIRPEffective Isotropic Radiated Power or Equivalent Isotropic Radiated Power. EIRP refers to the output power generated when a signal is concentrated into a smaller area by the Antenna.

Shows if the radio is configured to work around a known issue on Cisco 7921G telephones by capping for a radio’s maximum EIRPEffective Isotropic Radiated Power or Equivalent Isotropic Radiated Power. EIRP refers to the output power generated when a signal is concentrated into a smaller area by the Antenna.. When you enable this parameter, even if the regulatory approved maximum for a given channel is higher than this EIRPEffective Isotropic Radiated Power or Equivalent Isotropic Radiated Power. EIRP refers to the output power generated when a signal is concentrated into a smaller area by the Antenna. cap, the AP radio using this profile will advertise only this capped maximum EIRPEffective Isotropic Radiated Power or Equivalent Isotropic Radiated Power. EIRP refers to the output power generated when a signal is concentrated into a smaller area by the Antenna. in its radio beacons.

The supported value is1–31 dBmDecibel-Milliwatts. dBm is a logarithmic measurement (integer) that is typically used in place of mW to represent receive-power level. AMP normalizes all signals to dBm, so that it is easy to evaluate performance between various vendors..

ARMAdaptive 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. /WIDSWireless Intrusion Detection System. WIDS is an application that detects the attacks on a wireless network or wireless system. Override

If enabled, this option disables ARMAdaptive 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. and Wireless IDSIntrusion Detection System. IDS monitors a network or systems for malicious activity or policy violations and reports its findings to the management system deployed in the network. functions and slightly increases packet processing performance. If a radio is configured to operate in Air Monitor mode, then the ARMAdaptive 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. /WIDSWireless Intrusion Detection System. WIDS is an application that detects the attacks on a wireless network or wireless system. override functions are always enabled, regardless of whether or not this check box is selected.

Reduce Cell Size (Rx Sensitivity)

The cell size reduction feature allows you manage dense deployments and to increase overall system performance and capacity by shrinking an AP’s receive coverage area, thereby minimizing co-channel interference and optimizing channel reuse. The possible range of values for this feature is 0-55 dBDecibel. Unit of measure for sound or noise and is the difference or ratio between two signal levels.. The default 0 dBDecibel. Unit of measure for sound or noise and is the difference or ratio between two signal levels. reduction allows the radio to retain its current default Rx sensitivity value.

Energy Detect Threshold Offset

This parameter can modify the energy detect threshold used by the radio in making transmit decisions. The energy detect threshold is a negative value, and the value specified for this parameter (1-12) is the offset from the base value of -59 dBmDecibel-Milliwatts. dBm is a logarithmic measurement (integer) that is typically used in place of mW to represent receive-power level. AMP normalizes all signals to dBm, so that it is easy to evaluate performance between various vendors.. For example a value of 1 = -60 dBmDecibel-Milliwatts. dBm is a logarithmic measurement (integer) that is typically used in place of mW to represent receive-power level. AMP normalizes all signals to dBm, so that it is easy to evaluate performance between various vendors., and a value of 10: = -69 dBmDecibel-Milliwatts. dBm is a logarithmic measurement (integer) that is typically used in place of mW to represent receive-power level. AMP normalizes all signals to dBm, so that it is easy to evaluate performance between various vendors..

A value of 0 indicates the AP is using the default energy detect threshold for this radio. (This value may vary by AP model)

Management Frame Throttle Interval

Averaging interval for rate limiting mgmt frames from this radio, in seconds. A management frame throttle interval of 0 seconds disables rate limiting.

Management Frame Throttle Limit

Maximum number of management frames that can come in from this radio in each throttle interval.

Maximum Distance

Maximum distance between a client and an AP or between a mesh point and a mesh portal, in meters. This value is used to derive ACK and CTSClear to Send. The CTS refers to the data transmission and protection mechanism used by the 802.11 wireless networking protocol to prevent frame collision occurrences. See RTS. timeout times. A value of 0 specifies default settings for this parameter, where timeouts are only modified for outdoor mesh radios which use a distance of 16km..

RX Sensitivity Threshold

If the Rx Sensitivity Tuning Based Channel reuse feature is set to static mode, this parameter manually sets the AP’s Rx sensitivity threshold (-dBmDecibel-Milliwatts. dBm is a logarithmic measurement (integer) that is typically used in place of mW to represent receive-power level. AMP normalizes all signals to dBm, so that it is easy to evaluate performance between various vendors.). The AP will filter out and ignore weak signals that are below the channel threshold signal strength. For example, if the RX sensitivity threshold was set to -65 dBmDecibel-Milliwatts. dBm is a logarithmic measurement (integer) that is typically used in place of mW to represent receive-power level. AMP normalizes all signals to dBm, so that it is easy to evaluate performance between various vendors., the AP would ignore signals with a strength from -1 dBM to -64 dBmDecibel-Milliwatts. dBm is a logarithmic measurement (integer) that is typically used in place of mW to represent receive-power level. AMP normalizes all signals to dBm, so that it is easy to evaluate performance between various vendors.. If the value is set to zero, the feature will automatically determine an appropriate threshold.

RX Sensitivity Tuning Based Channel Reuse

Shows if the channel reuse feature’s current operating mode, static, dynamic or disable.

Static: This mode of operation is a coverage-based adaptation of the CCAClear Channel Assessment. In wireless networks, the CCA method detects if a channel is occupied or clear, and determines if the channel is available for data transmission. thresholds. In the static mode of operation, the CCAClear Channel Assessment. In wireless networks, the CCA method detects if a channel is occupied or clear, and determines if the channel is available for data transmission. is adjusted according to the configured transmission power level on the AP, so as the AP transmit power decreases as the CCAClear Channel Assessment. In wireless networks, the CCA method detects if a channel is occupied or clear, and determines if the channel is available for data transmission. threshold increases, and vice versa.

Dynamic: In this mode, the CCAClear Channel Assessment. In wireless networks, the CCA method detects if a channel is occupied or clear, and determines if the channel is available for data transmission. thresholds are based on channel loads, and take into account the location of the associated clients. When you set the Channel Reuse This feature is automatically enabled when the wireless medium around the AP is busy greater than half the time. When this mode is enabled, the CCAClear Channel Assessment. In wireless networks, the CCA method detects if a channel is occupied or clear, and determines if the channel is available for data transmission. threshold adjusts to accommodate transmissions between the AP its most distant associated client.

Disable: This mode does not support the tuning of the CCAClear Channel Assessment. In wireless networks, the CCA method detects if a channel is occupied or clear, and determines if the channel is available for data transmission. Detect Threshold.

 

Set to RadarRadio Detection and Ranging. Radar is an object-detection system that uses radio waves to determine the range, angle, or velocity of objects. Test Mode

For internal use only.

Adaptive Radio Management (ARMAdaptive 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. ) Profile

Name of an ARMAdaptive 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. profile associated with this 802.11a802.11a 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. profile.

High-throughput Radio Profile

Name of a High Throughput Radio profile associated with this 802.11a802.11a 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. profile.

AMAir Monitor. AM is a mode of operation supported on wireless APs. When an AP operates in the Air Monitor mode, it enhances the wireless networks by collecting statistics, monitoring traffic, detecting intrusions, enforcing security policies, balancing wireless traffic load, self-healing coverage gaps, and more. However, clients cannot connect to APs operating in the AM mode. Scanning Profile

The AMAir Monitor. AM is a mode of operation supported on wireless APs. When an AP operates in the Air Monitor mode, it enhances the wireless networks by collecting statistics, monitoring traffic, detecting intrusions, enforcing security policies, balancing wireless traffic load, self-healing coverage gaps, and more. However, clients cannot connect to APs operating in the AM mode. scanning profile referenced by APs using this 802.11a802.11a 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. radio profile. For details, seerf am-scan-profile

Max Channel Bandwidth

Sets the maximum channel bandwidth for APs associated to Mobility Master managed devices.

Min Channel Bandwidth

Sets the minimum channel bandwidth for APs associated to Mobility Master managed devices.

Max EIRPEffective Isotropic Radiated Power or Equivalent Isotropic Radiated Power. EIRP refers to the output power generated when a signal is concentrated into a smaller area by the Antenna.

The maximum transmission power level from 3 to 33 dBmDecibel-Milliwatts. dBm is a logarithmic measurement (integer) that is typically used in place of mW to represent receive-power level. AMP normalizes all signals to dBm, so that it is easy to evaluate performance between various vendors.. You may also specify a special value of 127 dBmDecibel-Milliwatts. dBm is a logarithmic measurement (integer) that is typically used in place of mW to represent receive-power level. AMP normalizes all signals to dBm, so that it is easy to evaluate performance between various vendors. for regulatory maximum to disable power adjustments for environments such as outdoor mesh links.

Min EIRPEffective Isotropic Radiated Power or Equivalent Isotropic Radiated Power. EIRP refers to the output power generated when a signal is concentrated into a smaller area by the Antenna.

The minimum transmission power level (in dBmDecibel-Milliwatts. dBm is a logarithmic measurement (integer) that is typically used in place of mW to represent receive-power level. AMP normalizes all signals to dBm, so that it is easy to evaluate performance between various vendors.) to be assigned to the AP radio(s).

EIRPEffective Isotropic Radiated Power or Equivalent Isotropic Radiated Power. EIRP refers to the output power generated when a signal is concentrated into a smaller area by the Antenna. Offset

This parameter is used to manually adjust EIRPEffective Isotropic Radiated Power or Equivalent Isotropic Radiated Power. EIRP refers to the output power generated when a signal is concentrated into a smaller area by the Antenna. levels selected by the AirMatch algorithm by specifying a value from -6 to 6 dBmDecibel-Milliwatts. dBm is a logarithmic measurement (integer) that is typically used in place of mW to represent receive-power level. AMP normalizes all signals to dBm, so that it is easy to evaluate performance between various vendors..

deploy-hour

Specify a number from 0-23 to select the hour during which AirMatch updates are sent to the APs (in 24-hour format). If the managed device to which the AP is associated is in a different time zone than Mobility Master, the AirMatch solution will be deployed according to the time zone of the managed device.

NOTE: If this parameter is set in both the AirMatch profile and radio profile, the setting in the radio profile will take precedence.

Related Commands

Related Command

Description

rf dot11a-radio-profile

This command configures AP radio settings for the 5 GHzGigahertz. frequency bandBand refers to a specified range of frequencies of electromagnetic radiation., including the Adaptive Radio Management (ARMAdaptive 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. ) profile for standalone controllers and the high-throughput (802.11n802.11n 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.) radio profile.

Command History

Release

Modification

ArubaOS 8.1.0.0

The deploy-hour, eirp-offset, Energy Detect Threshold Offset, and Min Channel Bandwidth parameters are introduced.

ArubaOS 8.0.0.0

Command introduced.

Command Information

Platforms

License

Command Mode

All platforms

Base operating system.

Config or Enable mode on Mobility Master.

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