350-101受験記対策 & 350-101基礎訓練

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今の多士済々な社会の中で、IT専門人士はとても人気がありますが、競争も大きいです。だからいろいろな方は試験を借って、自分の社会の地位を固めたいです。350-101認定試験はCiscoの中に重要な認証試験の一つですが、PassTestにIT業界のエリートのグループがあって、彼達は自分の経験と専門知識を使ってCisco 350-101認証試験に参加する方に対して問題集を研究続けています。

>> 350-101受験記対策 <<

100% パスレートのCisco 350-101受験記対策 は主要材料 & 現実的な350-101基礎訓練

PassTestのCisco 350-101問題集は専門家たちが数年間で過去のデータから分析して作成されて、試験にカバーする範囲は広くて、受験生の皆様のお金と時間を節約します。我々350-101問題集の通過率は高いので、90%の合格率を保証します。あなたは弊社の高品質Cisco 350-101試験資料を利用して、一回に試験に合格します。

Cisco 350-101 認定試験の出題範囲:

トピック出題範囲
トピック 2
  • Client Connectivity Configuration:
トピック 3
  • Covers Cisco wireless deployment architectures (Fabric, Mesh, Local, Cloud), physical infrastructure setup, and configuring management access for APs, WLCs, and dashboards.
トピック 4
  • 802.11 Technology Fundamentals:
トピック 5
  • Covers the behavior of radio waves, how RF signals are measured and interpreted, the mathematics behind RF calculations, and the characteristics of Wi-Fi antennas.
トピック 7
  • RF Fundamentals:
トピック 9
  • Wireless Network Operation:
トピック 10
  • Covers network maintenance tasks, client monitoring configuration, troubleshooting client connectivity issues, and integrating with external devices and platforms.
トピック 11
  • Wireless Monitoring and Management:
トピック 14
  • Covers Python scripting basics, NETCONF
  • YANG, wireless API interpretation, and AI-driven analytics, operations, and radio resource management within Catalyst Center.
トピック 15
  • Wireless Network Implementation:
トピック 17
  • 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.
トピック 19
  • Covers configuring authentication both on and off the controller, setting up client connectivity across different operating systems, roaming behavior, and wireless guest network configuration.

Cisco Implementing and Operating Cisco Wireless Core Technologies 認定 350-101 試験問題 (Q17-Q22):

質問 # 17
What is the purpose of YANG when used with the NETCONF protocol in the context of Cisco wireless controllers?

正解:A

解説:
YANG (Yet Another Next Generation) is a data modeling language primarily used in conjunction with the NETCONF (Network Configuration Protocol) to model configuration and operational data for network devices, including Cisco wireless controllers. YANG is a human-readable, hierarchical language designed to define the structure of data, allowing for consistent representation of configuration parameters, operational state, and notifications. It is extensively used in network automation and management systems to ensure standardized configuration management across various devices, making it easier for network administrators to automate and configure network devices using NETCONF.
NETCONF is the protocol that facilitates the transport of these data models (defined in YANG) between network devices and management systems. YANG's role is to define the structure and constraints of the data that NETCONF will configure or retrieve from devices. This allows administrators to configure network devices programmatically while adhering to a standardized data structure, which is essential for scalability, automation, and integration across various systems.
Options B, C, and D do not describe the actual purpose of YANG in the context of NETCONF and Cisco wireless controllers. Option B describes a security protocol (which could be TLS or SSH), Option C refers to protocols like RESTCONF, and Option D is incorrect because YANG is not a scripting language but a data modeling language.


質問 # 18
In an RF environment, what does high interference result in?

正解:B

解説:
The correct answer is B. inconsistent channel performance . In WLAN RF design, interference is unwanted RF energy in the same or adjacent frequency space that reduces the usable quality of a channel. Cisco defines interference as unwanted RF signals in the same frequency band that can cause degradation or loss of service.
When interference increases, the channel becomes less predictable: clients and APs experience higher contention, more retries, lower modulation rates, reduced throughput, and unstable latency.
Cisco also notes that overlapping channels can create RF interference, leading to connectivity issues and poor throughput. In co-channel interference scenarios, adjacent radios on the same channel interfere with network performance through collisions or excessive CSMA deferrals, degrading WLAN performance. This directly maps to inconsistent channel performance because the channel may appear usable at one moment and congested or impaired the next.
The other answers are not the best operational result. Frame aggregation may be impacted indirectly, but it is not the primary RF-level outcome. Scheduled contention access is not caused by interference. Extended coverage patterns are related to antenna gain, transmit power, and propagation, not high interference.
Reference topic: RF Fundamentals - interference, channel utilization, co-channel interference, adjacent-channel interference, retries, and WLAN performance degradation.


質問 # 19
How does the optimized roaming function operate in a WLC implementation?

正解:B

解説:
Optimized roaming is a Cisco WLC feature designed to reduce sticky-client behavior. A sticky client remains associated to an AP even after moving far enough away that another AP would provide better RF service.
Cisco describes optimized roaming as actively monitoring client data RSSI and disconnecting clients when received signal strength falls below the configured threshold. The official Catalyst 9800 documentation states that optimized roaming "disassociates client when the RSSI is lower than the set threshold," which directly matches option A.
This function does not calculate device location through peer-to-peer beaconing, does not depend on external experience services, and is not static load balancing. It is an RF/client-roaming enforcement mechanism controlled by the wireless infrastructure. In practical operation, the AP/WLC evaluates client signal quality and, when the configured optimized roaming criteria are met, forces the client to disconnect so it can reassess the RF environment and roam to a better AP. Cisco also notes that optimized roaming helps maintain client connectivity by managing disassociationn based on RSSI and data-rate thresholds. Reference topics:Client Connectivity Configuration - client roaming behavior, sticky-client mitigation, RSSI thresholds, and WLC roaming optimization


質問 # 20
A network engineer has been tasked with migrating the management mode of a Cisco 9176 AP named "Cisco- AP053540555" in a large enterprise wireless deployment. The AP is currently managed by a Cisco Catalyst
9800 Series WLC, but the organization is transitioning to Meraki cloud management for centralized control and monitoring. To complete this migration, the engineer needs to change the AP's management mode to Meraki with force and noprompt to skip validations using the CLI on the wireless controller. What command must the engineer use?

正解:A

解説:
Migrating a Cisco Catalyst AP to Meraki cloud management requires issuing a specific CLI command on the WLC to switch the AP's management mode. The correct syntax isap management mode meraki force noprompt, which instructs the controller to transition the AP to Meraki mode, bypassing validation prompts that normally require manual confirmation. Theforcekeyword ensures the command is executed even if the AP is actively associated or configured, andnopromptsuppresses confirmation dialogues for unattended migration. Options A, C, and D are invalid syntax or improperly order the parameters, which would result in a CLI error. Cisco Wireless Core Technologies recommend this approach during enterprise migration scenarios where multiple APs are moved from Catalyst WLC management to cloud-based Meraki management, enabling centralized configuration and monitoring in a large-scale deployment. Using this command ensures a seamless transition without service disruption, while maintaining inventory consistency and supporting automation for mass AP migrations. Reference topics:Wireless Network Implementation - AP management mode migration, Meraki cloud integration, CLI AP management, Catalyst 9176 WLC migration.


質問 # 21
What does a low SNR value result in?

正解:B

解説:
TheSignal-to-Noise Ratio (SNR)is an important metric used to determine the quality of a wireless signal. It compares the strength of the signal to the level of background noise. A low SNR indicates that the signal is weak relative to the noise, leading to poor signal quality.
Option D: Decreased data integrity with possible errorsis the correct answer. When SNR is low, the quality of the data transmission is compromised. The noise interferes with the signal, leading to potential data errors and a decrease in data integrity. This can cause packets to be lost or corrupted, requiring retransmissions, and reducing the overall performance and reliability of the network.
Option A: Scheduling of firmware maintenance windowsis not directly related to SNR. Firmware maintenance is unrelated to signal quality, though it might be necessary for other reasons, such as performance optimization or bug fixes.
Option B: Activation of automatic failover featuresis typically used in scenarios where there is network equipment failure or poor connection quality, but it is not directly triggered by low SNR values.
Option C: Improved channel reliabilityis the opposite of what happens when SNR is low. Low SNR leads to unreliable communication, not improved reliability.
Therefore,Option Dis correct, as a low SNR results in decreased data integrity due to possible errors in the transmission process.


質問 # 22
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最近の数年間で、IT領域の継続的な発展と成長に従って、350-101認証試験はもうCisco試験のマイルストーンになりました。Ciscoの350-101「Implementing and Operating Cisco Wireless Core Technologies」の認証試験はあなたがIT分野のプロフェッショナルになることにヘルプを差し上げます。Ciscoの350-101の試験問題を提供するウェブが何百ありますが、なぜ受験生は殆どPassTestを選んだのですか。それはPassTestにはIT領域のエリートたちが組み立てられた団体があります。その団体はCiscoの350-101の認証試験の最新の資料に専攻して、あなたが気楽にCiscoの350-101の認証試験に合格するためにがんばっています。PassTestは初めにCiscoの350-101の認証試験を受けるあなたが一回で成功することを保証します。PassTestはいつまでもあなたのそばにいて、あなたと一緒に苦楽を共にするのです。

350-101基礎訓練: https://www.passtest.jp/Cisco/350-101-shiken.html

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