Designing Cisco Enterprise Wireless Networks (ENWLSD) – 300-425

Designing Cisco Enterprise Wireless Networks

Elevate Your Wireless Networking Skills with the 300-425: Designing Cisco Enterprise Wireless Networks (ENWLSD) Course

Are you looking to deepen your understanding of Cisco wireless network design and take your career to the next level? The 300-425 ENWLSD course is the perfect solution. At NuxSoftware IT Training & Certification Solutions, we offer comprehensive training programs that equip you with the knowledge and skills you need to excel in today’s competitive IT landscape.

As a premier institute, we are committed to providing exceptional education across a wide range of IT domains. Our team of highly qualified instructors is passionate about sharing their expertise and helping you achieve your career goals. With our expert guidance and hands-on training, you’ll gain a deep understanding of Cisco wireless network design principles, best practices, and troubleshooting techniques.

Key Benefits of the 300-425 ENWLSD Course:

  • Comprehensive Curriculum: Gain knowledge of the newest Cisco technology as well as industry best practices for building safe, scalable, and secure networks.
  • Skilled Teachers: Gain knowledge from seasoned networking experts who infuse the classroom with their practical knowledge.
  • Hands-On laboratories: Immerse yourself in real-world network settings through hands-on laboratories to gain practical experience.
  • Career-Oriented Education: Get ready for certification examinations to improve your chances of landing a networking job.

Enroll in the 300-425 ENWLSD course today and unlock your potential in Cisco wireless networking.

300-425: Designing Cisco Enterprise Wireless Networks (ENWLSD) Syllabus

1.0 Wireless Site Survey

  • 1.1 Collect design requirements and evaluate constraints
    • 1.1.a Client density
    • 1.1.b Real time applications
    • 1.1.c AP type
    • 1.1.d Deployment type (data, location, voice, video)
    • 1.1.e Security
  • 1.2 Describe material attenuation and its effect on wireless design
  • 1.3 Perform and analyze a Layer 1 site survey
  • 1.4 Perform a pre-deployment site survey
  • 1.5 Perform a post deployment site survey
  • 1.6 Perform a predictive site survey
  • 1.7 Utilize planning tools and evaluate key network metrics (Ekahau, AirMagnet, PI, Chanalyzer, Spectrum Analyzer)

    • 2.0 Wired and Wireless Infrastructure

  • 2.1 Determine physical infrastructure requirements such as AP power, cabling, switch port capacity, mounting, and grounding
  • 2.2 Determine logical infrastructure requirements such as WLC/AP licensing requirements based on the type of wireless architecture
  • 2.3 Design radio management
    • 2.3.a RRM
    • 2.3.b RF profiles
    • 2.3.c RxSOP
  • 2.4 Apply design requirements for these types of wireless networks
    • 2.4.a Data
    • 2.4.b Voice and video
    • 2.4.c Location
  • 2.5 Design high-density wireless networks and their associated components
  • 2.6 Design wireless bridging (mesh)
    • 2.6.a Modes of operation
    • 2.6.b Ethernet bridging
    • 2.6.c WGB and roaming

    • 3.0 Mobility

  • 3.1 Design mobility groups based on mobility roles
  • 3.2 Optimize client roaming
  • 3.3 Validate mobility tunneling for data and control path

    • 4.0 WLAN High Availability

  • 4.1 Design high availability for controllers
    • 4.1.a Network availability through LAG
    • 4.1.b Stateful Switchover (SSO)
    • 4.1.c Anchor controller priority and redundancy
  • 4.2 Design high availability for APs
    • 4.2.a AP prioritization
    • 4.2.b Fall-back (assigning primary, secondary, and tertiary)
    • 4.2.c Embedded Wireless Controller (EWC)

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