When you use the Multi-edit function, only options that are explicitly modified are changed by the update. The APs shown in the Wireless APs list are supported by various versions of software. Only attributes that are common between software versions are available for multi-edit. Setting an attribute that does not apply to an AP does not cause an abort of the multi-edit operation.
Multi-Edit AP Properties
| Field | Description |
|---|---|
| AP Properties | |
| Location | Define the location of the AP. When a client roams to an AP with a different location, Area Notification is triggered. The Area Notification feature is designed to track client locations within pre-defined areas using either the Location Engine (for more information, see Configuring the Location Engine) or the AP Location field. When the clients change areas, a notification is sent. Location functionality on the AP is useful when access to Extreme Management Center OneView is not available. |
| Zone | Zone allows the RADIUS client to send the AP Zone name as the BSSID instead of the radio MAC address. This feature can be enabled regardless of whether the Site is using centrally located or local RADIUS servers. Zone name is limited to 32 bytes. Each AP can have its own Zone label although it is often useful to assign the same Zone to multiple APs. It can be easier to base authorization decisions on the zone label rather than on the BSSID. |
| Poll Timeout | Type the timeout value, in seconds. The AP uses this value to
trigger re-establishing the link with the Controller if the AP does not get an
answer to its polling. The default value is 10 seconds. Note: If you are
configuring session availability, the Poll Timeout value should be 1.5 to 2 times
of Detect link failure value on AP Properties screen. For more information, see Session Availability.
|
| Secure Tunnel | This feature, when enabled, provides encryption,
authentication, and key management between the AP and/or controllers. Select the desired Secure Tunnel mode from the drop-down list:
Note: Changing a Secure Tunnel mode will automatically disconnect
and reconnect the AP.
|
| Secure Tunnel Lifetime (hours) | Enter an interval (in hours) at which time the keys of the
IPSEC tunnel are renegotiated. Note: Changing the Secure Tunnel Lifetime setting
will not cause any AP disruption.
|
| Remote Access | Determines if the AP can be accessed remotely. |
| Location-based Service | Enable or disable third-party location based services on this
AP. ExtremeWireless supports the following third-party services:
|
| Maintain client session in event of poll failure | Determines if the AP remains active when a link loss with the controller occurs. Select this option when using a bridged at AP VNS. This option is enabled by default. |
| Restart service in the absence of controller | Determines if the AP‘s radios continue providing service when the AP‘s connection to the controller is lost. Select this option when using a bridged at AP VNS. When this option is enabled, the AP starts a bridged at AP VNS in the absence of a controller. |
| Use broadcast for disassociation | Determines if the AP uses broadcast disassociation when disconnecting all clients, instead of disassociating each client one by one. This setting affects the behavior of the AP when the AP is preparing to reboot or preparing to enter one of the special modes (DRM initial channel selection). and when a BSSID is deactivated or removed on the AP. This option is disabled by default. |
| LLDP | Determines if the AP broadcasts LLDP (Link Layer Discovery Protocol) information. This
option is disabled by default. If SNMP (Simple Network Management Protocol) is enabled on the controller and you enable LLDP, the LLDP Confirmation dialog is displayed. Select one of the following:
|
| Multicast prioritized as voice | Ensures that multicast data has the highest priority in the wireless network. Prioritizes multicast data to the level of voice data. This setting must be enabled when deploying healthcare patient monitoring devices. |
| IP Multicast Assembly | Determines if IP Multicast Assembly runs on the wireless AP. If enabled, IP Multicast Assembly joins together fragmented multicast data packets that are too large to fit the MTU size of the tunnel header. This feature is disabled by default. |
| Balanced Channel List Power | Simplify power settings so settings function across all channels in the channel plan. |
| LED | Select the desired LED pattern from the drop-down list. Options include: Off, WDS Signal Strength, Identify, and Normal. |
| Country | Indicates the country of operation. The antenna you select determines the available channel list and the maximum transmitting power for the country in which the AP is deployed. |
| Antennas | The Professional Install option is only available when an AP model with external antennas is selected. The fields and corresponding antenna value options that appear on the Professional Install dialog depend on the selected AP and the antenna models that are available. Select and antenna for each available port. Choose the desired attenuation for each radio from the drop-down list. Selectable range is from 0 to 30 dBI. |
| Radio Settings | |
| Admin Mode | Determines if the radio is on or off. Select On to enable the radio. Select Off to disable the radio. |
| Radio Mode | Select the radio mode based on the type of AP. Available radio settings are dependent on the selected radio mode. |
| Channel Width |
Determines the channel width for the
radio. Valid values are:
|
| DTIM | Type the desired DTIM (Delivery Traffic Indication Message) period — the number of beacon intervals between two DTIM beacons. To ensure the best client power savings, use a large number. Use a small number to minimize broadcast and multicast delay. The default value is 5. |
| Beacon Period | Defines the time, in milliseconds, between beacon transmissions. The default value is 100 milliseconds. |
| RTS/CTS (Bytes) | (Request to Send/Clear to Send) handshake. Determines the maximum packet size, in bytes, that triggers a RTS/CTS handshake. The default value is 2346 (the maximum 802.11 frame size) which means all packets are sent without RTS/CTS. If the transmitted packet size is greater than the threshold value, the RTS/CTS handshake occurs. Otherwise, the data frame is sent immediately. Reduce this value only if necessary. Note: In order for RTS/CTS to take affect, the RTS threshold must be less than or equal to the Frag threshold. |
| Frag Threshold (Bytes) | Determines the maximum packet size, in bytes, that triggers packet fragmentation. The default value is 2346. At 2346, all packets are sent unfragmented. Any value above the frag threshold triggers packet fragmentation by the AP prior to transmission. |
| RF Domain | Defines a group of APs that cooperate in managing RF channels and transmission power levels. The maximum string length is 16 characters. |
| Channel | Select Auto to use Automatic Channel Selection. For more information, see Dynamic Radio Management (DRM). |
| Auto Tx Power Control |
Determines if the AP automatically adapts transmission power signals according to the coverage provided by the AP. After a period of time, the system stabilizes itself based on the RF coverage of your wireless APs. When enabled, Min Tx Power and Auto Tx Power Ctrl Adjust parameters can be edited, and the ATPC algorithm adjusts the AP power between the Max Tx and Min Tx settings. When disabled, the radio uses the Max Tx Power value or the largest value in the compliance table,whichever is smaller. |
| Max Tx Power | Determines the maximum power level used by the radio in dBm. The values are governed by compliance requirements based on the country, radio, and antenna selected, and will vary by AP. Changing this value below the current Min Tx Power value will lower the Min Tx Power to a level lower than the selected Max TX Power. If Auto Tx Power Ctrl (ATPC) is disabled, the radio uses the selected value or the largest value in the compliance table as the power level, whichever is smaller. |
| Min Tx Power | Determines the minimum power level for the radio. Use the lowest supported value in order to not limit the potential Tx power level range that can be used. If ATPC is enabled, select the Min Tx power level that is equal or lower than the Max Tx power level. The Min Tx Power setting cannot be set higher than the Max Tx Power setting. |
| Auto Tx Ctrl Adjust | Determines if the AP automatically adapts transmission power signals according to the coverage provided by the AP. After a period of time, the system stabilizes itself based on the RF coverage of your wireless APs. When enabled, Min Tx Power and Auto Tx Power Ctrl Adjust parameters can be edited, and the ATPC algorithm adjusts the AP power between the Max Tx and Min Tx settings. When disabled, the radio uses the Max Tx Power value or the largest value in the compliance table,whichever is smaller. |
| Channel Plan |
If ACS is enabled you can define a channel plan for the
AP. Defining a channel plan allows you to control which channels are available for use during
an ACS scan. For example, you may want to avoid using specific channels because of low power,
regulatory domain, or radar interference.
|
| Dynamic Channel Selection |
Determines behavior when traffic or noise levels
exceed the configured DCS thresholds. Valid values are:
|
| DCS Noise Threshold | Defines the noise interference limit, measured in dBm. If the noise interface exceeds this threshold, ACS scans for a new operating channel for the AP. |
| DCS Channel Occupancy Threshold |
Defines the channel utilization level, measured as a percentage. If the threshold is exceeded, ACS scans for a new operating channel for the AP. |
| DCS Update Period (Minutes) |
Defines a period of time, in minutes, where the average values for DCS Noise and Channel Occupancy are measured. If the average value for either setting exceeds the defined threshold for that setting, then the AP triggers Automatic Channel Scan (ACS). |
| Dynamic Channel Selection (DCS) events |
Indicates items that can affect DCS (Dynamic Channel
Selection). Enable one or more events if they are part of the wireless network:
|
| Interference Wait Time | Length of the delay (in seconds) before logging an alarm. Default setting is 10 seconds. |
| Preamble | Select a preamble type for 11b-specific (CCK) rates: Short, or Long. Click Short if you are sure that there is no 11b APs or client in the vicinity of this AP. Click Long if compatibility with 11b clients is required. |
| Protection Mode |
When data collides on a given channel,
CTS (clear to send) protection determines which device transmits at a given time.
|
| Protection Rate | A CTS (Clear to Send) packet is always sent out at the MBR (Minimum Basic Rate) configured for the radio. Protection is used when the sending rate (to the client) is greater than the configured protection rate. For example,if the protection rate is 11Mbps it means that 802.11 protection is used. |
| Protection Type |
Select a protection type:
|
| Min Basic Rate |
Defines the minimum data rate that must be
supported by all stations in a BSS (Base Station Subsystem):
|
| Probe Suppression |
Used to remedy "sticky clients", that is clients that do
not probe on other channels and remain associated to an AP when a better AP is available.
Configure per radio (Enable/Disable and Threshold). Applies to AP37xx, AP38xx, and AP39xx
series APs. Probe Suppression accomplishes the following:
|
| Force Disassociate |
Field is available when Probe
Suppression is enabled. This setting does the following:
|
| RSS Threshold (dBm) | 90 (Range of -50 to -100). Field is available when Probe Suppression is enabled. |
| Max % of non-unicast traffic per Beacon period | Defines the maximum percentage of time that the AP transmits non-unicast packets (broadcast and multicast traffic) for each configured Beacon Period. For each non-unicast packet transmitted, the system calculates the airtime used by each packet and drops all packets that exceed the configured maximum percentage. Restrict non-unicast traffic, to limit the impact of broadcasts and multicasts on overall system performance. |
| Optimized Multicast for power save | Enables several performance enhancements applicable to clients in power save mode. One of these enhancements converts multicast to unicast for power save clients when the ratio of active to power save clients is sufficiently large. |
| Adaptable rate for Multicast | Determines if the AP tracks the lowest unicast transmission speed of any station currently associated to the AP. Multicast frames are then forwarded at that speed or at the Minimum Basic Rate, whichever is higher. |
| Multicast to Unicast delivery | Determines if
multicast packets are replaced by one unicast packet per destination station. Each unicast
packet is transmitted at the highest speed the destination station will accept. Note: It is
possible that some client devices will not handle frames properly when the L2 MAC is unicast
and the L3 IP address is multicast in which case the "Multicast to Unicast Delivery" option
should be disabled. Note: The AP
converts a multicast frame to unicast frames only when it determines that it is
more efficient to do so. With the exception of “Optimized Multicast for power
save” these options can be enabled at any time without service
disruption.
|
| 11n Radio Settings | |
| Guard Interval | Ensures that individual transmissions do not interfere with one another. It is the space between the symbols being transmitted. Selecting Short increases throughput, but can increase interference. Selecting Long can increase overhead due to additional idle time. The wireless 802.11n AP provides a shorter guard interval, which increases channel throughput. Long guard periods reduce channel efficiency. |
| Protection Mode |
When data collides on a given channel,
CTS (clear to send) protection determines which device transmits at a given time.
|
| Protection Type |
Select a protection type:
|
| Extension Channel Busy Threshold | CTS Only or RTS CTS, when a 40 MHz channel is used. This protects high throughput transmissions on extension channels from interference from non-11n APs and clients. |
| Aggregate MSDUs | Determines MAC Service Data Unit (MSDU) aggregation. Enable to increase the maximum frame transmission size. |
| Aggregate MPDUs | Determines MAC Protocol Data Unit (MPDU) aggregation. Enable to increase the maximum frame transmission size, providing a significant improvement in throughput. |
| Aggregate MPDU Max Length | Defines the maximum length of the MAC Protocol Data Unit (MPDU) aggregation. Valid values range from 1024-65535 bytes. For the 802.11ac radio (Radio 1 of the AP38xx), the range is 1024-1048575. |
| Agg. MPDU Max # of Sub-frames | Determines the maximum number of sub frames in the aggregate MAC Protocol Data Unit (MPDU). Valid value range is 2-64. |
| ADDBA Support | Block acknowledgement. Provides acknowledgement of a group of frames instead of a single frame. ADDBA Support must be enabled if Aggregate MPDU is enable. |
| LDPC | Increases the reliability of the transmission resulting in a 2dB increased performance compared to traditional 11n coding. |
| STBC | Space Time Block Coding. A simple open loop transmit diversity scheme. When enabled, STBC configuration is 2x1 (two spatial streams combined into one spatial stream). TXBF overrides STBC if both are enabled for single stream rates. |
| TXBF | Tx Beam Forming is a technique of re-aligning the transmitter multipath spatial streams phases in order to get better signal-to-noise ratio on the receiver side. For the AP37xx and AP38xx models, valid values are Enabled or Disabled. For the 39xx APs, this setting is only available on Radio1 and valid values are MU_MIMO and Disabled. |
| IoT | |
| IoT Admin | Indicates if iBeacon is enabled or disabled. |
| Application | The IoT application ID. Currently, Apple's iBeacon is the only application supported. |
| Advertise Interval | The advertising interval for the iBeacon application. Valid values are: Min (100ms) and Max (10240ms). The default value is Min (100ms). |
| iBeacon UUID Auto Generate | Click Generate to automatically generate the UUID for the selected APs. |
| iBeacon UUID | Used to differentiate a large group of related beacons. A company can have a network of beacons with the same UUID. A smart phone app can identify the beacons coming from that company. |
| iBeacon Major | Identifies a subset of beacons within the larger set. Used to more precisely pinpoint beacon location, and therefore MU location. This value could represent a venue specific attribute, such as a specific store or wing in a building. Valid values are 0 to 65635. |
| iBeacon Minor | Identifies an individual beacon. Used to more precisely pinpoint beacon location, and therefore MU location. This value complements the UUID and Major values to provide more granular identification of a specific location, such as a particular shelf, door-way, item. Valid values are 0 to 65635. |
| Static Configuration | |
| EWC Search List | Defines the list of IP addresses that the AP is configured to try to connect to in the event that the current connection to the controller is lost. |
| Tunnel MTU | Maximum transmission unit. Determines the largest packet size than can be transmitted by an IP interface without the packet needing to be broken down into smaller units. |
| WLAN Assignments | |
| WLAN Assignment Option | Determines action on the WLAN assignment list associated with one or more APs. Valid values are Clear WLAN List or Reconfigure WLAN List. |
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