Dell W-7030 AOS 6.4.x User Guide - Page 628

l reselect-anytime: mesh points using the reselect-anytime reselection mode perform a single topology readjustment scan within 9 minutes of startup and 4 minutes after a link is formed. If no better parent is found, the mesh point returns to its original parent. This initial scan evaluates more distant mesh points before closer mesh points, and incurs a dropout of 5-8 seconds for each mesh point. After the initial startup scan is completed, connected mesh nodes evaluate mesh links every 30 seconds. If a mesh node finds a better uplink, the mesh node connects to the new parent to create an improved path to the mesh portal. l reselect-never: connected mesh nodes do not evaluate other mesh links to create an improved path to the mesh portal. l startup-subthreshold: mesh points using the startup-subthreshold reselection mode perform a single topology readjustment scan within 9 minutes of startup and 4 minutes after a link is formed. If no better parent is found, the mesh point returns to its original parent. This initial startup scan evaluates more distant mesh points before closer mesh points, and incurs a dropout of 5-8 seconds for each mesh point. After that time, each mesh node evaluates alternative links if the existing uplink falls below the configured threshold level (the link becomes a sub-threshold link). It is recommended to use this default startupsubthreshold value. l subthreshold-only: connected mesh nodes evaluate alternative links only if the existing uplink becomes a sub-threshold link. If a mesh point using the startup-subthreshold or subthreshold-only mode reselects a more distant parent because its original, closer parent falls below the acceptable threshold, then as long as that mesh point is connected to that more distant parent, it seeks to reselect a parent at the earlier, shorter distance (or less) with good link quality. For example, if a mesh point disconnects from a mesh parent 2 hops away and subsequently reconnects to a mesh parent 3 hops away, then the mesh point continues to seek a connection to a mesh parent with both an acceptable link quality and a distance of two hops or less, even if the more distant parent also has an acceptable link quality. For information about the procedure to configure mesh radio profiles, see Creating and Editing Mesh Radio Profiles on page 641. RF Management (802.11a and 802.11g) Profiles The two 802.11a and 802.11g RF management profiles for an AP configure its 802.11a (5 Ghz) and 802.11b/g (2.4 GHz) radio settings. Use these profile settings to determine the channel, beacon period, transmit power, and ARM profile for a mesh AP's 5 GHz and 2.5 Ghz frequency bands. You can either use the "default" version of each profile, or create a new 802.11a or 802.11g profile which you can then configure as necessary. Each RF management profile also has a radio-enable parameter that allows you to enable or disable the AP's ability to simultaneously carry WLAN client traffic and mesh-backhaul traffic on that radio. This value is enabled by default. For information about configuring RF Management Radio profiles, see 802.11a and 802.11g RF Management Profiles on page 593. If you do not want the mesh radios carrying mesh-backhaul traffic to support client traffic, consider using a dedicated 802.11a/80211/g radio profile with the mesh radio disabled. In this scenario, the radio carries mesh backhaul traffic but does not support client Virtual APs. Mesh nodes operating in different cluster profiles can share the same radio profile. Conversely, mesh portals using the same cluster profile can be assigned different RF Management Radio profiles to achieve frequency separation (for more information, see "Deployments with Multiple Mesh Cluster Profiles"). Adaptive Radio Management Profiles Each 802.11a and 802.11g radio profile references an Adaptive Radio Management (ARM) profile. When you assign an active ARM profile to a mesh radio, ARM's automatic power-assignment and channel-assignment Dell Networking W-Series ArubaOS 6.4.x | User Guide Secure Enterprise Mesh | 628