A wireless engineer must design a wireless mesh network for the courtyard at a local university to support a large number of students. Which description of how the engineer designs the mesh network to provide additional capacity is true?
A. Configure multiple RAPs to support bridge mode.
B. Configure multiple RAPs on different channels.
C. Configure multiple RAPs to support hardware diversity.
D. Configure multiple RAPs with different antennas.
B is not right – mesh must be on the same channel
have you read this https://www.cisco.com/c/en/us/td/docs/wireless/controller/8-5/Enterprise-Mobility-8-5-Design-Guide/Enterprise_Mobility_8-5_Deployment_Guide/Chapter-8.html
Two RAPs per Cell on Different Channels
Maybe “C”
Refer:
If multiple RAPs are to be deployed, the purpose for deploying these RAPs needs to be considered. If the RAPs are being deployed to provide hardware diversity, the additional RAP(s) should be deployed on the same channel as the primary RAP to minimize the convergence time in a scenario where the mesh transfers from one RAP to another
I think in this case “b” is correct.
If additional RAPs are deployed to primarily provide additional capacity, then the additional RAPs should be deployed on a different channel than its neighboring RAP to minimize the interference on the backhaul channels.
https://www.cisco.com/c/en/us/td/docs/wireless/technology/mesh/8-6/b_mesh_86/Site_Preparation_and_Planning.html
I think it’s B. One AP can support many different types of WLAN clients. To achieve maximum client density in a given area you need multiple AP’s on different non-overlapping channels.