A network engineer is designing a new wireless network.
The network needs to have these characteristics: -> support high client concentration -> optimize client performance -> avoid interference Which approach should be taken?
Click on the arrows to vote for the correct answer
A. B. C. D.C.
When designing a wireless network, there are several factors that need to be considered such as coverage, capacity, interference, security, and cost. In this case, the network engineer needs to design a wireless network that can support high client concentration, optimize client performance, and avoid interference.
Option A suggests deploying APs near each other for 2.4 GHz coverage and disabling the 5 GHz radios for all APs. This approach may not be ideal because the 2.4 GHz frequency band is overcrowded, which can result in interference and poor performance. Furthermore, disabling the 5 GHz radios will limit the network's capacity and may not provide optimal client performance.
Option B suggests deploying APs near each other for 5 GHz coverage and disabling the 2.4 GHz radios for some APs. This approach is better than option A because the 5 GHz frequency band is less crowded and can provide better performance for clients. However, disabling the 2.4 GHz radios for some APs may limit the coverage and capacity of the network.
Option C suggests deploying APs near each other for 2.4 GHz coverage and disabling the 5 GHz radios for some APs. This approach is similar to option A but with the added benefit of enabling the 5 GHz radios for some APs. However, the 2.4 GHz frequency band may still be overcrowded, which can result in interference and poor performance.
Option D suggests deploying APs near each other for 5 GHz coverage and enabling the 2.4 GHz radios for all APs. This approach is the most ideal because the 5 GHz frequency band provides better performance and less interference, while the 2.4 GHz frequency band can provide wider coverage and support for legacy devices. However, deploying APs near each other can result in interference, so proper channel planning and power settings should be considered.
In conclusion, option D is the best approach for designing a wireless network that can support high client concentration, optimize client performance, and avoid interference.