Руководство По Проектированию для Cisco Cisco Aironet 350 Mini-PCI Wireless LAN Client Adapter
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Enterprise Mobility 4.1 Design Guide
OL-14435-01
Chapter 8 Cisco Wireless Mesh Networking
Wireless Mesh Operation
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The mesh is built from the RAP out, because initially only the RAP can respond to solicitations.
If the mesh AP is not a RAP, it follows the state diagram above in the following modes:
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Scan—The AP scans all the backhaul channels using mesh beaconing. This mechanism is similar to
the 802.11 beaconing mechanisms used by wireless access networks. The frame used for beaconing
is called NEIGHBOR_UPDATE. Essentially, NEIGHBOR_UPDATE frames are advertised by the
network so that new nodes can scan and quickly discover neighbors. Each RAP and MAP broadcast
NEIGHBOR_UPDATE frames after being connected to the network (via a WLAN controller). Any
neighbor updates with SNRs lower than 10 dB are discarded. This process is called passive
scanning.
the 802.11 beaconing mechanisms used by wireless access networks. The frame used for beaconing
is called NEIGHBOR_UPDATE. Essentially, NEIGHBOR_UPDATE frames are advertised by the
network so that new nodes can scan and quickly discover neighbors. Each RAP and MAP broadcast
NEIGHBOR_UPDATE frames after being connected to the network (via a WLAN controller). Any
neighbor updates with SNRs lower than 10 dB are discarded. This process is called passive
scanning.
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Seek—Solicits other members of the mesh. Mesh APs issuing successful responses to these
solicitations become neighbors.
solicitations become neighbors.
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Sync—The mesh AP learns the path information from each of its neighbors and the neighbor with
the greatest ease becomes the parent of the soliciting mesh AP. If the neighbors report multiple
RAPs, the RAP with the greatest ease is chosen.
the greatest ease becomes the parent of the soliciting mesh AP. If the neighbors report multiple
RAPs, the RAP with the greatest ease is chosen.
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Authenticate—The mesh AP authenticates to the WLC through a connection established via its
parent AP. This is a standard certificate-based LWAPP AP authentication.
parent AP. This is a standard certificate-based LWAPP AP authentication.
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Maintain—The mesh AP responds to other mesh AP solicitations and regularly issues solicitations
to determine any changes in the mesh. It is only after entering the maintain state that the mesh AP
is visible to the WLC and WCS. Note that in the maintain state, the solicitations occur only on the
channel defined by the mesh RAP, whereas a mesh AP in seek mode solicits on all channels, only
stopping when it has found a parent AP.
to determine any changes in the mesh. It is only after entering the maintain state that the mesh AP
is visible to the WLC and WCS. Note that in the maintain state, the solicitations occur only on the
channel defined by the mesh RAP, whereas a mesh AP in seek mode solicits on all channels, only
stopping when it has found a parent AP.
Background Scanning in Mesh Networks
Background scanning allows Cisco 1500 series APs to actively and continuously monitor neighboring
channels for optimum paths and parents. Because the access point is searching on neighboring channels
as well as the current channel, the list of possible alternate optimal paths and parents is greater.
channels for optimum paths and parents. Because the access point is searching on neighboring channels
as well as the current channel, the list of possible alternate optimal paths and parents is greater.
Identifying this information prior to the loss of a parent results in a faster switch over and the best link
possible for the access point. Additionally, access points might switch to a new channel if a link on that
channel is found to have a better cost metric (fewer hops, stronger SNR) than its current channel.
possible for the access point. Additionally, access points might switch to a new channel if a link on that
channel is found to have a better cost metric (fewer hops, stronger SNR) than its current channel.
Background scanning on other channels and collecting of data from neighbors on those channels is done
on the backhaul between two access points:
on the backhaul between two access points:
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For 1510 access points, the backhaul (primary) operates on the 802.11a link.
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For 1505 access points, the backhaul operates on the 802.11b/g link.
Background scanning is enabled on a global basis on the controller using the command-line interface:
config mesh background-scanning {enable | disable}
Enter this command to verify background scanning is enabled.
show mesh background-scanning
It is enabled by default.
Note
Latency might increase for voice calls when they are switched to a new channel.
If channels requiring Dynamic Frequency Selection (DFS) are used, locating neighbors in other channels
might take longer.
might take longer.