Profile Overrides Advanced Settings

About this task

To override a radio's advanced settings:

Procedure

  1. Select the Advanced Settings tab.

    The selected radio interface's advanced settings screen displays:

    Click to expand in new window
    Access Point - Radio Interface - Advanced Settings Screen
    GUID-17A1E2A0-AB12-4EA0-9282-EBBC6C270A8D-low.png
  2. In the Radio Settings field, define or override how MAC service frames are aggregated by the access point radio.

    A-MPDU Modes

    Specify the A-MPDU mode. Options include Transmit Only, Receive Only, Transmit and Receive, and None. The default value is Transmit and Receive. Using the default value, long frames can be both sent and received (up to 64 KB). When this option is enabled, define a transmit limit, a receive limit, or both.

    Minimum Gap Between Frames

    Use the drop-down menu to define, in microseconds, the minimum gap between consecutive A-MPDU frames. The options include:
    • 0 – Configures the minimum gap as 0 microseconds

    • 1 – Configures the minimum gap as 1 microseconds

    • 2 – Configures the minimum gap as 2 microseconds

    • 4 – Configures the minimum gap as 4 microseconds

    • 8 – Configures the minimum gap as 8 microseconds

    • 16 – Configures the minimum gap as 16 microseconds

    • auto – Auto configures the minimum gap depending on the platform and radio type (default setting)

    Received Frame Size Limit

    If the A-MPDU mode is set to Receive Only or Transmit and Receive, use this option to define an advertised maximum limit for received A-MPDU aggregated frame size. The options include:

    • 8191 - Advertises the maximum received frame size limit as 8191 bytes.
    • 16383 - Advertises the maximum received frame size limit as 16383 bytes.
    • 32767 - Advertises the maximum received frame size limit as 32767 bytes.
    • 65535 - Advertises the maximum received frame size limit as 65535 bytes.
    • 128000 - Advertises the maximum received frame size limit as 128000 bytes.
    • 256000 - Advertises the maximum received frame size limit as 256000 bytes.
    • 512000 - Advertises the maximum received frame size limit as 512000 bytes.
    • 1024000 - Advertises the maximum received frame size limit as 1024000 bytes.
    • default - This option auto configures the maximum received frame size based on the platform and radio type. This is the default setting.

    Transmit Frame Size Limit

    If the A-MPDU mode is set to Transmit Only or Transmit and Receive, use the spinner control to set limit on transmitted A-MPDU aggregated frame size.

    The range depends on the AP type and the radio selected.

    For 802.11ac capable APs, the range is as follows:
    • 2000 - 65,535 bytes - For radio 1, the range is 2000 - 65,535 bytes. The default value is 65,535 bytes.
      Note:

      The WiNG AP7662 and AP7632 access points are an exception to the above rule. For the AP7662 and AP7632 access point models, the radio 1 range is 2000 - 1,024,000 bytes. And the default value is 1,024,000 bytes.

    • 2000 - 1,024,000 bytes - For radio 2, the range is 2000 - 1,024,000 bytes. The default value is 1,024,000 bytes.
    Note:

    The WiNG 802.11ac capable APs are: AP7522, AP7532, AP7562, AP7602, AP7612, AP7632, AP7662, AP8432, and AP8533.

    For non 802.11ac capable APs the range is as follows:
    • 2000 - 65,535 bytes - For both radio 1 and radio 2 the range is 2000 - 65,535 bytes. The default value is 65,535 bytes.

  3. In the Aggregate MAC Service Data Unit (A-MSDU) field, use the A-MSDU Modes drop-down menu to set or override the supported A-MSDU mode.

    Available modes are Receive Only and Transmit and Receive. Use Transmit and Receive to send and receive frames up to 4 KB. The buffer limit is not configurable. Transmit and Receive is the default value.

  4. Use the Airtime Fairness fields to configure wireless access to devices based on their usage.

    Enable Fair Access

    Select to enable fair access to all peer devices.

    Prefer High Throughput Clients

    Select to prefer clients with higher throughput (802.11n clients) over clients with slower throughput (802.11 a/b/g) clients. Use the spinner control to set a weight for the higher throughput clients.

  5. Use the Rx Sensitivity Reduction drop-down menu to set the selected radio's receive sensitivity reduction threshold level.

    This threshold determines the RSSI (in dBm) at which the radio acknowledges the SOP (Start of Packet) frames received from the client, and begins to demodulate and decode the packets.

    In highly dense environments, or single-channel networks, having two or more radios sharing a channel, CCI (co-channel interference) adversely impacts network performance. By setting this threshold, you can control the radio‘s receive sensitivity to interference and noise, thereby reducing the impact of CCI. You are basically configuring the AP to not decode packets that have a signal strength below the specified threshold level.

    The available rx-sensitivity-reduction threshold levels are: High, Low, Medium and None. Set the threshold level as High, to force your radio to ignore all traffic having a signal strength below the high threshold level value. This results in fewer traffic interruptions due to collision and Wi-Fi interference. Note, the default setting is None.

    The following table provides the rx-sensitivity-reduction threshold level to RSSI mapping for the 2.4 GHz and 5 GHz bands:

    802.11 Bands

    High Threshold

    Medium Threshold

    Low Threshold

    2.4 GHz

    -79 dBm

    -82 dBm

    -85 dBm

    5 GHz

    -76 dBm

    -78 dBm

    -80 dBm

    Note

    Note

    This feature is supported only on the following access points: AP-7522, AP 7532, AP 7562, AP-8432, AP-8533

  6. In the Miscellaneous field, use the RIFS (Reduced Interframe Spacing) drop-down menu ro override interframe spacing settings.

    RIFS Mode

    Interframe spacing is an interval between two consecutive Ethernet frames to enable a brief recovery between packets and allow target devices to prepare for the reception of the next packet.

    Use this option to specify the interframe spacing settings:
    • Receive Only - Select to apply interframe spacing only to packets received by this access point.

    • Transmit Only - Select to apply interframe spacing only to packets transmitted by this access point.

    • Transmit and Receive - Select to apply interframe spacing to packets both transmitted and received by this access point.

    • None - Select to disable interframe spacing. Consider selecting this value for high priority traffic to reduce packet delay.

  7. Set or override the following Aeroscout Properties for the selected access point radio.

    Forward

    Select this option to enable forwarding of Aeroscout packets.

    MAC to be forwarded

    Enter the MAC address that is incorporated in the Aeroscout packets that are forwarded.

  8. Set or override the following Ekahau Properties for the selected access point radio.

    Forwarding Host

    Specify the IP address of the host to which Ekahau packets are forwarded.

    Forwarding Port

    Set the Ekahau forwarding port number.

    MAC to be forwarded

    Enter the MAC address that is incorporated in the Ekahau packets that are forwarded.

  9. Set or override the following Non-Unicast Traffic values for the profile‘s supported access point radio and its connected wireless clients:

    Non-Unicast Transmit Rate

    Use the Select drop-down menu to launch a sub-screen to define the data rate for broadcast and multicast frame transmissions. If you are not using the same rate for each BSSID, seven different rates are available – each with a separate menu.

    Non-Unicast Forwarding

    Define whether client broadcast and multicast packets should always follow DTIM, or only follow DTIM when using Power Save Aware mode. The default setting is Follow DTIM.

  10. Refer to the Sniffer Redirect (Packet Capture) field to define or override the radio‘s captured packet configuration.

    Host for Redirected Packets

    If packets are redirected from a controller or service platform‘s connected access point radio, specify the IP address of a resource (additional host system) used to capture the redirected packets. This address is the numerical (non DNS) address of the host used to capture the redirected packets.

    Channel to Capture Packets

    Specify the channel used to capture redirected packets. The default value is channel 1.

  11. Refer to the Channel Scanning field to define or override the radio‘s captured packet configuration.

    Enable Off-Channel Scan

    Select to enable scan across all channels using this radio. Channel scans use access point resources and can be time consuming, so only enable when your sure the radio can afford the bandwidth be directed toward the channel scan and does not negatively impact client support. This option is disabled by default.

    Off Channel Scan list for 5GHz

    Select the list of channels for off-channel scans using the access point's 5GHz radio. Restricting off-channel scans to specific channels frees bandwidth otherwise utilized for scanning across all the channels in the 5GHz radio band.

    Off Channel Scan list for 2.4GHz

    Select the list of channels for off-channel scans using the access point's 2.4GHz radio. Restricting off-channel scans to specific channels frees bandwidth otherwise utilized for scanning across all the channels in the 2.4GHz radio band.

    Max Multicast

    Set the maximum number (from 0 - 100) of multicast/broadcast messages used to perform off-channel scanning. The default setting is 4.

    Scan Interval

    Set the interval (from 2 - 100 dtims) between off-channel scans. The default setting is 20 dtims.

    Sniffer Redirect

    Specify the IP address of the host to which captured off-channel scan packets are redirected.

  12. Click OK to save the changes and overrides to the Advanced Settings screen.

    Click Reset to revert to the last saved configuration.