350-101 Reliable Test Testking, Valid 350-101 Study Notes

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Cisco 350-101 Exam Syllabus Topics:

TopicDetails
Topic 1
  • Wireless Network Operation: Covers initial configuration of Cisco wireless infrastructure, AP discovery and join processes, AP modes, WLAN setup, and client management policies across platforms like Catalyst Center, ISE, and Spaces.
Topic 2
  • Automation and AI: Covers Python scripting basics, NETCONF
  • YANG, wireless API interpretation, and AI-driven analytics, operations, and radio resource management within Catalyst Center.
Topic 3
  • Wireless Monitoring and Management: Covers network maintenance tasks, client monitoring configuration, troubleshooting client connectivity issues, and integrating with external devices and platforms.

Cisco Implementing and Operating Cisco Wireless Core Technologies Sample Questions (Q98-Q103):

NEW QUESTION # 98
An engineer is migrating to a new Cisco Catalyst CW9800-H1 WLC to modernize the wireless infrastructure and enable advanced monitoring capabilities. The organization operates more than 150 access points and uses Cisco Catalyst Center for centralized network management and assurance. As part of the deployment, the engineer must enable wireless service assurance and wireless telemetry to monitor client connectivity, roaming behavior, and performance metrics across the wireless network. Which configuration must be applied in Cisco Catalyst Center when onboarding the WLC?

Answer: A

Explanation:
When onboarding a Cisco Catalyst CW9800-H1 WLC into Cisco Catalyst Center for enterprise-scale wireless monitoring, proper credential configuration and service enablement are critical. Device controllability ensures that the Catalyst Center can communicate with and manage the WLC and its associated access points, while wireless assurance provides telemetry data for client connectivity, roaming, and performance metrics. The recommended approach is to enable CLI, SNMP, and NETCONF credentials during discovery to allow full management access. Enabling device controllability globally allows the Catalyst Center to push configurations and query device status without restriction. Assigning the WLC to a site with wireless assurance enabled activates telemetry data collection, ensuring detailed visibility into client behavior and network health. Options A and B misalign telemetry and controllability settings, which can result in incomplete monitoring. Option C enables wireless assurance globally but does not globally enable device controllability, limiting operational control. Cisco best practices dictate that for large-scale deployments with hundreds of APs, global device controllability paired with site-level wireless assurance guarantees consistent, non-disruptive monitoring and enables full utilization of advanced features. Reference topics:Wireless Monitoring and Management - WLC onboarding, Catalyst Center telemetry, device controllability, wireless assurance, large-scale AP management.


NEW QUESTION # 99
Users report slowness on the network, and it is suspected that certain applications are consuming all the bandwidth. A network engineer must enable the NBAR protocol to improve wireless client traffic visibility and provide advanced, granular, application classification, and analytics. How should the network engineer configure NBAR on a 9800 WLC?

Answer: B

Explanation:
The correct configuration approach is to enableApplication Visibility and Controlon thepolicy profile. On the Catalyst 9800, WLANs are not configured as isolated monolithic objects; the WLAN profile is mapped to a policy profile through a policy tag, and many client traffic services are applied from that policy profile. Cisco defines AVC as the wireless feature set that identifies and monitors applications using DPI, creates rules to manage application bandwidth and usage, and integrates with Flexible NetFlow for per-application or per- protocol statistics. Cisco further states that AVC benefits from NBAR running on the AP or controller, and that the NBAR2 engine analyzes and recognizes traffic flows.
Operationally, Cisco's 9800 AVC guide shows that AVC is enabled by navigating toConfiguration > Services
> Application Visibilityand selecting the relevantPolicy Profile. It also shows the CLI form under the policy profile:wireless profile policy AVC_testingfollowed byip nbar protocol-discovery, with verification showingNBAR Protocol Discovery : Enabled. Options A and B are incorrect because the feature is not enabled directly on the WLAN. Option C is generic and incomplete; the Cisco feature construct is AVC.
Reference topics:AVC, NBAR2, Flexible NetFlow, Catalyst 9800 policy profiles, and wireless application visibility.


NEW QUESTION # 100
What is a characteristic of gain in wireless antenna design?

Answer: B

Explanation:
In wireless antenna design, gain refers to the measure of an antenna's ability to focus energy in a particular direction compared to a reference antenna, usually an isotropic radiator. Gain does not generate additional power; instead, it redistributes radiated energy to increase signal strength in the intended direction, enhancing the effective range and performance of the wireless link. This directional amplification is crucial in both point- to-point and point-to-multipoint deployments, as higher gain antennas can concentrate RF energy to overcome path loss and improve received signal strength at the target. Option A describes system loss calculation, which relates to link budgets, not antenna gain. Option B is unrelated, as checksum figures are part of digital error detection in wireless frames. Option D pertains to environmental tolerance, not RF signal characteristics. In Cisco Wireless Core Technologies, antenna gain is considered during RF planning, coverage modeling, and site surveys to ensure optimal signal distribution, proper overlap, and minimal interference, particularly for high-density deployments. Using high-gain directional antennas in corridors or long hallways, for instance, improves coverage and throughput while minimizing interference outside the target area. Reference topics:RF Fundamentals - Antenna gain, directional radiation patterns, link budget, site survey planning.


NEW QUESTION # 101

Refer to the exhibit. An engineer configured a static IP address on a LWAPP, but it is not reachable for management. The engineer configured the wrong gateway and must now change the default gateway to
172.16.100.1. Which CLI command must the engineer use?

Answer: C

Explanation:
When deploying a Lightweight Access Point (LWAPP) in a Cisco wireless network, proper Layer 3 configuration is essential for management and connectivity to the Wireless LAN Controller (WLC). Each LWAPP requires a valid IP address, subnet mask, and default gateway to communicate beyond its local subnet. In the exhibit, the AP is assigned 172.16.100.104/24, but the previously configured gateway was incorrect, preventing communication with the WLC. Cisco IOS XE requires that the AP's IP interface be configured with the correct default gateway to route traffic properly. The correct syntax iscapwap ap ip < AP- IP > < Subnet-Mask > < Default-Gateway > . Option D matches the IP, subnet mask, and gateway for the given network, ensuring the AP can reach the WLC for LWAPP registration. Option A only changes the gateway without setting the IP explicitly, which is insufficient if the IP needs adjustment. Option B incorrectly configures the controller's IP, which does not affect the AP's default gateway. Option C uses an incorrect subnet mask (255.255.255.192), which would place the AP in a different subnet, breaking connectivity. Proper default gateway configuration is critical to avoid registration failures and management issues. Reference topics:Client Connectivity Configuration - LWAPP AP IP configuration, default gateway, WLC communication, Layer 3 reachability.


NEW QUESTION # 102
What is a benefit of network adaptability in terms of improved operational outcomes when using AI-RRM in Cisco Catalyst Center?

Answer: A

Explanation:
The correct answer isreduction of co-channel interference. AI-RRM in Cisco Catalyst Center is designed for RF optimization, not IP addressing, software scheduling, or user identity classification. Cisco describes AI- enhanced RRM as applying artificial intelligence and machine learning to optimize RF environments and automate/adapt RF parameter tuning for Cisco wireless networks. This is directly tied to operational RF outcomes such as improved channel planning, transmit power behavior, channel width decisions, and better spectrum utilization.
Co-channel interference occurs when multiple AP radios operate on the same channel within hearing range, forcing devices to share airtime and increasing contention. AI-RRM uses telemetry, analytics, and learned RF behavior to recommend or apply more optimal RF configurations. Cisco specifically states that AI-enhanced RRM optimization can produce improvements such as up to a40 percent reduction in co-channel interferenceand SNR gains for wireless clients. Cisco's AI-RRM deployment guidance also identifies AP radio distribution and utilization analysis as critical for minimizing co-channel interference and optimizing wireless performance.
Therefore, option B is the only operational outcome aligned with AI-RRM's purpose. Reference topic:
Automation and AI - Cisco Catalyst Center AI-RRM, RF analytics, RRM automation, channel optimization, and wireless AIOps.


NEW QUESTION # 103
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