University Auditorium Wireless Deployment

CE.

Sure, I'd be happy to explain.

When designing a wireless deployment for a university auditorium, high AP (access point) count can introduce several issues, such as co-channel interference, overlapping channels, and reduced signal strength. To deal with these issues, you can use the following two features:

1. Transmit Power Control (TPC): TPC is a feature that allows you to adjust the transmit power of the APs to optimize coverage and reduce interference. By lowering the transmit power of nearby APs, you can minimize co-channel interference and reduce the overlapping of channels. This can also help to improve the signal-to-noise ratio and reduce the likelihood of adjacent-channel interference.

2. Dynamic Frequency Selection (DFS): DFS is a feature that allows you to use additional frequency bands in the 5 GHz range, beyond the standard non-DFS channels. This can help to reduce interference from radar signals and other sources of interference, as well as allow for more channels to be used in high-density environments like the university auditorium.

TSPEC, RXSOP, and LSS are not features that specifically address the issues introduced by high AP count in a university auditorium:

• TSPEC (Traffic Specification) is a feature that allows you to specify the quality of service (QoS) requirements for individual wireless clients, but it does not address the issues of co-channel interference and overlapping channels.

• RXSOP (Received Signal Strength Operating Point) is a feature that allows you to adjust the sensitivity threshold of the APs to better handle weak signals, but it does not address the issues of co-channel interference and overlapping channels.

• LSS (Load-Splitting Steer) is a feature that allows you to distribute client connections across multiple APs to balance the load, but it does not address the issues of co-channel interference and overlapping channels.

Therefore, the correct answers are C. TPC and E. DFS.