Here you have the best Cisco 300-360 practice exam questions
An engineer is performing a predictive wireless design for a carpeted office space, which requires voice capability and location services. Which two requirements are inputs to the design? (Choose two.)
For a wireless network design that includes voice capability and location services in a carpeted office space, it is crucial to ensure proper coverage and overlap. For voice capability, continuous coverage with a signal strength of -67 dBm or better is necessary to support seamless roaming and maintain call quality. Therefore, continuous -67 dBm coverage from one access point is essential. For location services, overlapping coverage from three access points at -67 dBm or better is required to accurately triangulate the position of devices. Therefore, overlapping -67 dBm coverage from three access points is essential.
The AP has been configured property for a VoWLAN survey The RF environment contains a noise of -87 to -90 dBm. What is the target value for the cell edge reading?
The target value for the cell edge reading in a VoWLAN survey is -67 dBm. This value ensures an adequate signal strength that compensates for potential noise and provides a stable and quality voice connection. The recommended value aligns with industry standards, which generally suggest -67 dBm for VoWLAN to ensure good voice quality and reliable connectivity.
An 802.11n implementation is being discussed. Users are satisfied with the potential 300-450 Mbps throughput of new 802.11n APs. Which three bandwidth requirements are used to calculate per client bandwidth through an 802.11n AP network? (Choose three.)
To calculate per client bandwidth through an 802.11n AP network, three key bandwidth requirements are considered: Channel bonding on 5 GHz is necessary for a client to achieve a 300 Mbps WiFi link as this promotes higher throughput; when more clients connect to one AP, the remaining bandwidth is divided per device, affecting individual client bandwidth; and a 100 Mbps Ethernet switch port can be a potential bottleneck that limits overall throughput to the client. These factors are essential for determining the effective bandwidth available to each client in an 802.11n network.
An engineer is assigned to replace an older data-grade autonomous wireless network with a Cisco controller-based wireless network to meet Voice over WLAN needs. The customer also wants all existing cable infrastructure to be reused and no new cable be specified. How should the engineer respond to the customers requirements?
To meet the customer's stringent requirements for Voice over WLAN, simply implementing the wireless network with high-gain antennas or tweaking the transmit power is unlikely to yield the desired quality and coverage. The existing cable infrastructure may not support the new requirements for voice traffic, which is more sensitive to network performance variations. Informing the customer that the network is not likely to function as desired and recommending a post-install survey ensures a realistic approach to assessing and potentially upgrading the infrastructure, thereby increasing the likelihood of meeting their needs.
A hospital environment was designed to guarantee RF coverage at or better than -67 dBm in the 5 GHz spectrum. The customer mandates that RRM be used for
DCA and TPC in both bands. After deployment, why do many of the legacy 802.11b/g devices have difficulty maintaining connectivity?
The issue with legacy 802.11b/g devices maintaining connectivity is likely due to TPC (Transmit Power Control) drastically reducing Tx power in the 2.4 GHz band. When TPC reduces the transmit power, the signal strength may not be sufficient for older devices, which might not be optimized for such conditions, leading to connectivity issues.