Using Wi-Fi Multimedia (WMM), end-user satisfaction is maintained in a wider variety of environments and traffic conditions. WMM makes it possible for both home networks and enterprises to decide which data streams are most important and assign them a higher traffic priority.
WMM's prioritization capabilities are based on the four access categories. The higher the access category, the higher the probability to transmit this kind of traffic over a controller, service platform or access point managed WLAN. Access categories were designed to correspond to 802.1d priorities to facilitate interoperability with QoS policy management mechanisms. WMM enabled controllers, service platforms and access points can coexist with legacy devices (not WMM-enabled).
Packets not assigned to a specific access category are categorized by default as having best effort priority. Applications assign each data packet to a given access category; packets are then added to one of four independent transmit queues (one per access category - voice, video, best effort or background) in the client. The client has an internal collision resolution mechanism to address collision among different queues, which selects the frames with the highest priority to transmit.
The same mechanism deals with external collision, to determine which client(s) should be granted the TXOP (opportunity to transmit). The collision resolution algorithm responsible for traffic prioritization is probabilistic and depends on two timing parameters that vary for each access category.
Both values are smaller for high-priority traffic. The value of the contention window varies through time. Initially the contention window is set to a value that depends on the access category. As frames with the highest access category tend to have the lowest backoff values, they are more likely to get a TXOP.
After each collision the contention window is doubled until a maximum value (also dependent on the access category) is reached. After successful transmission, the contention window is reset to its initial, access-category dependent value. The access category with the lowest backoff value gets the TXOP.
To configure a WMM configuration for a WLAN:
Wireless Client Classification | Use the drop-down menu to select the Wireless Client
Classification for this WLAN's intended traffic type. The
classification categories are the different WLAN-WMM options available
to the radio. Classification types include:
|
Non-Unicast Classification |
Use the drop-down menu to select the Non-Unicast Classification for
this WLAN's intended traffic. Non-unicast classification types
include:
|
Configure Non WMM Client Traffic |
Use the drop-down menu to select the Non-WMM client traffic
Classification. Non-WMM classification types include:
|
Enable Voice Prioritization | Select this option if Voice traffic is prioritized on the WLAN. This gives priority to voice and voice management packets supported only on certain legacy VOIP phones. This feature is disabled by default. |
Enable SVP Prioritization | Enabling Spectralink Voice Prioritization (SVP) allows the identification and prioritization of traffic from Spectralink/Polycomm phones. This gives priority to voice on certain legacy VOIP phones. If the wireless client classification is WMM, non WMM devices recognized as voice devices have their traffic transmitted at voice priority. Devices are classified as voice when they emit SIP, SCCP, or H323 traffic. Thus, selecting this option has no effect on devices supporting WMM. This feature is disabled by default. |
Enable WMM Power Save | Enables support for the WMM based power-save mechanism, also known as Unscheduled Automatic Power Save Delivery (U-APSD). This is primarily used by voice devices that are WMM capable. This feature is enabled by default. |
Enable QBSS Load IE | Check this option to enable a QBSS (QoS Basis Service Set) IE (information element) in beacons and probe response packets advertised by access point radios. This feature is enabled by default. |
Transmit Ops | Use the slider to set the maximum duration a device can transmit after obtaining a transmit opportunity. The default value is 47. |
AIFSN | Set the current Arbitrary Inter-frame Space Number (AIFSN) between 2 and 15. Higher-priority traffic voice categories should have lower AIFSNs than lower-priority traffic categories. This will cause lower-priority traffic to wait longer before attempting access. The default value is 2. |
ECW Min | The ECW Min is combined with the ECW Max to create the contention value in the form of a numerical range. From this range, a random number is selected for the back off mechanism. Lower values are used for higher priority traffic. The available range is from 0-15. The default value is 2. |
ECW Max | The ECW Max is combined with the ECW Min to create the contention value in the form of a numerical range. From this range, a random number is selected for the back off mechanism. Lower values are used for higher priority traffic. The available range is from 0-15. The default value is 3. |
Transmit Ops | Use the slider to set the maximum duration a device can transmit after obtaining a transmit opportunity. The default value is 0. |
AIFSN | Set the current AIFSN between 2 and 15. Lower priority traffic categories should have higher AIFSNs than higher priority traffic categories. This will cause lower priority traffic to wait longer before attempting access. The default value is 3. |
ECW Min | The ECW Min is combined with the ECW Max to create the contention value in the form of a numerical range. From this range, a random number is selected for the back off mechanism. Higher values are used for lower priority traffic (like Normal). The available range is from 0-15. The default value is 4. |
ECW Max | The ECW Max is combined with the ECW Min to create the contention value in the form of a numerical range. From this range, a random number is selected for the back off mechanism. Higher values are used for lower priority traffic (like Normal). The available range is from 0-15. The default value is 10. |
Transmit Ops | Use the slider to set the maximum duration a device can transmit after obtaining a transmit opportunity. The default values is 94. |
AIFSN | Set the current Arbitrary Inter-frame Space Number (AIFSN) between 2 and 15. Higher-priority traffic video categories should have lower AIFSNs than lower-priority traffic categories. This will cause lower-priority traffic to wait longer before attempting access. The default value is 2. |
ECW Min | The ECW Min is combined with the ECW Max to create the contention value in the form of a numerical range. From this range, a random number is selected for the back off mechanism. Lower values are used for higher priority traffic (like video). The available range is from 0-15. The default value is 3. |
ECW Max | The ECW Max is combined with the ECW Min to create the contention value in the form of a numerical range. From this range, a random number is selected for the back off mechanism. Lower values are used for higher priority traffic (like video). The available range is from 0-15. The default value is 4. |
Transmit Ops | Use the slider to set the maximum duration a device can transmit after obtaining a transmit opportunity. The default value is 0. |
AIFSN | Set the current AIFSN between 2 and 15. Lower priority traffic categories should have higher AIFSNs than higher priority traffic categories. This will cause lower priority traffic to wait longer before attempting access. The default value is 7. |
ECW Min | The ECW Min is combined with the ECW Max to create the contention value in the form of a numerical range. From this range, a random number is selected for the back off mechanism. Higher values are used for lower priority traffic (like Normal). The available range is from 0-15. The default value is 4. |
ECW Max | The ECW Max is combined with the ECW Min to create the contention value in the form of a numerical range. From this range, a random number is selected for the back off mechanism. Higher values are used for lower priority traffic (like Normal). The available range is from 0-15. The default value is 10. |
Trust IP DSCP | Select this option to trust (utilize) IP DSCP values for WLANs. The default value is enabled. |
Trust 802.11 WMM QoS | Select this option to trust (utilize) 802.11 WMM QoS values for WLANs. The default value enabled. |
Note
This does not save the settings you configured; it provides a preview of your applied settings. To undo the settings you applied, select Revert.Note
If you do not select Save, the settings that you configured are not saved when you move away from the configuration window.