CWDP-304 VALID VCE, VALID EXAM CWDP-304 BLUEPRINT

CWDP-304 Valid Vce, Valid Exam CWDP-304 Blueprint

CWDP-304 Valid Vce, Valid Exam CWDP-304 Blueprint

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CWNP CWDP-304 Exam Topics:

SectionObjectives

Define Specifications for the WLAN - 25%

Collect business requirements and constraints- Business use cases and justification
- User requirements
- Regulatory compliance
- Industry compliance
- Budget
- Aesthetics
- Architectural constraints
- Mounting restrictions
- Access restrictions
- Time constraints
- Building codes and safety codes
Collect and define technical requirements- Vendor selection
- Location services such as RTLS
- Latency requirements
- Signal strength requirements
- Capacity requirements
- Security requirements
  • BYOD and guest access
  • Roaming
  • Monitoring
  • Authentication and encryption

- Applications and their specific requirements
- WLAN upgrade requirements, when applicable
- Bridge link requirements, when applicable
- Voice over WLAN (VoWLAN), when applicable
- Client devices including most important and least capable device
- Requirement areas

Collect project documentation- Validated floor plans
- Network infrastructure
  • Network diagrams
  • AP locations
  • Existing network services including DNS, DHCP, NTP, and authentication servers
  • Switch capabilities and capacity

- Cabling infrastructure

  • Cabling maps and plans
  • Wiring closet locations

- Power availability and PoE capabilities
- Existing wireless systems
- Previous design/survey documentation

Define requirement areas including essential metrics for each requirement- Client device types and capabilities
- Applications and their requirements
- User and device density
- SSIDs
- Security settings
- Understand common vertical markets
Gather information on environmental factors- Building materials
- Attenuation values
- Ceiling heights
- Site annotations (photos, notes, plans)
- Wireless environment scan
  • Packet captures
  • Spectrum captures
  • Wi-Fi scanners

Design the WLAN - 40%

Define WLAN architectures and select the appropriate architecture for a design- Controller-based (physical and virtual) architectures
- Distributed (cloud-based and local WNMS)
- Standalone/Autonomous APs
- Dynamic vs. static channel assignment
- Dynamic radio management
- Software defined radios
- RF profiles
- Select and/or recommend the appropriate equipment for the design and selected architecture (APs, antennas, controllers, managed services)
Produce a design to meet requirements- Select and use the appropriate design tools
  • Design and survey software and hardware
  • Spectrum analysis software and hardware
  • Access points and antennas
  • Portable power source
  • Tripods
  • Measuring tools
  • Cameras
  • Personal Protective Equipment (PPE)

- Select and use the appropriate design methodologies

  • WLAN predictive design (new builds/site or area not accessible)
  • Validated RF modeling
  • AP-on-a-Stick (APoS) measurements
  • Bridge and mesh planning

- Understand and use the common features of wireless design software

  • Import and scale floor plans
  • Model attenuation of the site (including calibration)
  • Select and place APs and antennas
  • Adjust AP and antenna settings
  • Define requirement areas and parameters
  • Define channel and power settings

- Select and use common vendor features and make configuration recommendations

  • Band steering
  • Automatic/static channel selection
  • Load balancing
  • RF/AP templates

- Design for different client and application types

  • VoIP handsets
  • Laptops
  • Handheld scanners
  • Smartphones and tablets
  • IoT and smart devices
  • Location tracking systems
  • Voice and video systems

- Ensure end-to-end QoS is properly implemented

  • WMM
  • Wired and wireless QoS mappings
  • QoS markings, classifications, and queues

- Define and recommend security solutions

  • Monitoring (detection and prevention)
  • Authentication servers
  • EAP methods
  • Authentication types
  • Encryption types

- Design for secure roaming

  • Secure BSS transition (roaming)
  • Vendor roaming solutions
  • Client support issues
Create, distributed, and communicate design documentation- Bill of Materials (BoM)
- Design reports
- Physical installation guide

Deploy the WLAN - 10%

Ensure proper understanding and implementation of the design- Implementation meeting
  • Explain design decisions to implementers
  • Ensure understanding of design deployment

- Distribute required documentation

Recommend or perform essential deployment tasks- Understand and perform installation procedures for different WLAN architectures (cloud-based, controller-based, WNMS, autonomous)
- Infrastructure configuration supporting the WLAN (DHCP, DNS, NTP, switches, and routers)
- Channel assignment, automatic radio management, and transmit power configuration
- Installation procedures for cloud-based APs, controller-based APs, WNMS APs, and autonomous APs
Perform an installation audit for quality assurance- Verify proper AP and antenna location and orientation
- Verify aesthetic requirements are met
- Verify physical security of the installation

Validate and Optimize the WLAN - 25%

Confirm the WLAN system is operational- AP Status
- Verify PoE provisioning of power requirements are met
Perform an RF validation survey- Ensure coverage requirements
- Evaluate impacts of contention and interference
Perform client performance testing- Connectivity testing
- Application testing
- Roaming testing
- Capacity testing
- Security testing

CWNP Certified Wireless Design Professional Sample Questions (Q42-Q47):

NEW QUESTION # 42
What advantage provided by 802.11n and 802.11ac is not usable in 1X1:1 low-end client devices?
Response:

  • A. Channel bonding
  • B. MCS data rates
  • C. Mandatory data rates
  • D. Maximal Ratio Combining

Answer: C


NEW QUESTION # 43
What is the purpose of Friis transmission equation [ (LdB) = 20 log(d) + 20 log (f) - 27.55 ]?

  • A. Calculate RF path loss in free space
  • B. Calculate earth bulge to determine minimum antenna height
  • C. Calculate receive sensitivity for an 802.11 radio/antenna pair
  • D. Calculate the loss experienced between the intentional radiator and antenna

Answer: A


NEW QUESTION # 44
You have performed a validation site survey after deploying a WLAN infrastructure that is an All-Wireless-Office. One specific application of your customer is experiencing delay when using the application after moving from wired connectivity. After your validation, you realized that all APs are using 80 MHz channel- widths instead of 20 MHz on the 5 GHz band, as it was designed. What can be done to resolve the delay on this application?

  • A. Add more APs using 80 MHz channel-widths
  • B. APs should be using 160 MHz channel-widths to get more throughput
  • C. Power-off half of the APs to reduce CCI and keep 80 MHz channel-widths
  • D. Reconfigure to use 20 MHz channel-widths, so reuse of the frequency is more effective

Answer: D


NEW QUESTION # 45
HR/DSSS specifies the following PHY rates:
Response:

  • A. 1, 2
  • B. MCS 1-15
  • C. 6, 9, 12, 18, 24, 36, 48, 54
  • D. 1, 2, 5.5, 11

Answer: D


NEW QUESTION # 46
An amplifier has a 1 dB compression point of 32 dBm and a gain of 20 dB. Which is the highest average input power shown here that would be safe to operate a 24 Mbps 802.11g signal so that spectral regrowth is not a problem?
Response:

  • A. 5 dBm
  • B. #5 dBm
  • C. 10 dBm
  • D. 0 dBm

Answer: D


NEW QUESTION # 47
......

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