Cisco Cisco Aironet 350 Wireless Bridge 문제 해결 가이드
Bridging Wireless Bandwidth
Document ID: 71478
Contents
Introduction
Prerequisites
Requirements
Components Used
Conventions
Equal−Cost Load Balancing
Routing Protocols
Switching Paths
Fast Switching vs. CEF Switching
Other Design Considerations
Quality of Service
Full Duplex
Dual Unidirectional Links
EtherChannel
Wireless Design Considerations
802.11n
Distance
QoS
Homogeneous Clients
The Test Design
Routers
Switches
Bridges
Tech Tips
Related Information
Prerequisites
Requirements
Components Used
Conventions
Equal−Cost Load Balancing
Routing Protocols
Switching Paths
Fast Switching vs. CEF Switching
Other Design Considerations
Quality of Service
Full Duplex
Dual Unidirectional Links
EtherChannel
Wireless Design Considerations
802.11n
Distance
QoS
Homogeneous Clients
The Test Design
Routers
Switches
Bridges
Tech Tips
Related Information
Introduction
Wireless bridging provides a simple method for connecting building sites without cabling or can be used as a
backup to existing wired links. If you have hundreds of nodes or bandwidth−hungry applications and data
transmitting between sites, bridging your networks will require more than 11 Mbps provided by the 802.11b
standard. However, by using the following Cisco−tested design, you can easily and effectively aggregate and
load balance the bandwidth of three 802.11b−compliant Cisco Aironet® bridges to support up to a 33−Mbps
half−duplex connection between bridge locations.
backup to existing wired links. If you have hundreds of nodes or bandwidth−hungry applications and data
transmitting between sites, bridging your networks will require more than 11 Mbps provided by the 802.11b
standard. However, by using the following Cisco−tested design, you can easily and effectively aggregate and
load balance the bandwidth of three 802.11b−compliant Cisco Aironet® bridges to support up to a 33−Mbps
half−duplex connection between bridge locations.
The use of standard technology and protocols including virtual LANs (VLANs), VLAN trunks, equal−cost
load balancing, and routing protocols makes this design easy to configure and troubleshoot. More importantly,
it makes support from the Cisco Technical Assistance Center (TAC) possible.
load balancing, and routing protocols makes this design easy to configure and troubleshoot. More importantly,
it makes support from the Cisco Technical Assistance Center (TAC) possible.
Prerequisites
Requirements
There are no specific requirements for this document.