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

Master wireless network design with the 300-425 ENWLSD course. Learn to design robust Cisco enterprise wireless networks. Enroll now!
Designing Cisco Enterprise Wireless Networks
Cisco

The “300-425: Designing Cisco Enterprise Wireless Networks (ENWLSD)” course is a comprehensive program designed to elevate your expertise in Cisco wireless network design. At NuxSoftware IT Training & Certification Solutions, we offer top-tier training to ensure you master this critical field. As a premium institute, we provide exceptional instruction across various IT domains, supported by a dedicated team of highly qualified instructors committed to delivering quality education.

Our Cisco 300-425 ENWLSD training program is meticulously crafted to offer in-depth knowledge and practical skills in designing robust Cisco enterprise wireless networks. With a strong emphasis on hands-on application and extensive lab work, our course material is designed to provide maximum practical exposure. This approach ensures that our learners not only grasp theoretical concepts but also acquire the practical skills necessary to excel in the professional IT field.

Join Nux Software Training & Certification Solutions to gain comprehensive knowledge and hands-on experience in designing Cisco enterprise wireless networks. Our focus on practical learning and expert instruction prepares you to achieve your goals and advance your career in this dynamic and in-demand field.

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

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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