Delivery: Seminar
Estimated Length: 40 seat hours
Price: $3,295.00
Please call to enroll: 866.575.7206
Get a head start right out of the gate with a Certified Wireless Network Administrator (CWNA) certification. It is the base certification for Enterprise Wi-Fi within the CWNP family of certifications and a springboard toward earning your security, design, analysis and network expert certifications. Achieving it enhances your networking career profile, providing evidence that you have sought after Wi-Fi knowledge and skills. The goal of this course is to add Wi-Fi expertise to a networking professional’s skillset while covering all CWNA-108 exam topics. The course begins with discussion topics and hands-on lab exercises covering the basic operation of 802.11 Wi-Fi technology.
Once a base of Wi-Fi knowledge is established, enterprise relevant topics such as Wi-Fi design, security and troubleshooting are covered. You will use enterprise-class hardware and software tools during live lab exercises, all accessible remotely for any instructor-led or virtual class.
As an added bonus, you will receive a free exam voucher.
Once a base of Wi-Fi knowledge is established, enterprise relevant topics such as Wi-Fi design, security and troubleshooting are covered. You will use enterprise-class hardware and software tools during live lab exercises, all accessible remotely for any instructor-led or virtual class.
As an added bonus, you will receive a free exam voucher.
Delivery Options:
Please contact NCTI Customer Care for delivery options and/or available dates, locations and times. You must provide your own laptop.
Completion Time:
The estimated completion time for this course is 40 hours (five days).
Upon completing this course, students will know:
- background and roles of Wi-Fi governing bodies, including the IEEE and Wi-Fi Alliance
- radiofrequency properties and behaviors
- wireless signal fundamentals, including measurement principles
- antenna information, including types and installation best practices
- Wi-Fi standards, including 802.11 extensions ac, ad, af and ah
- Wi-Fi device types and infrastructure options
- Wi-Fi communications processes, including connection, roaming and data transfer
- general troubleshooting tips to common real-world 802.11n issues
- Wi-Fi architecture best practices, including both network and wireless design
- similarities, differences and peculiarities about Wi-Fi deployments in differing environments (offices, K-12 education, health care facilities and more)
- security standards, best practices, known vulnerabilities and remediation techniques for Wi-Fi networks
- site surveying, including requirements gathering, design, installation and validation
- troubleshooting methodology, tools and techniques, along with common issues
Outline:
WLAN and Networking Industry Organizations
Wi-Fi related organizations, the IEEE, PHY amendments, 802.11 amendments and Wi-Fi alliance, PoE (802.3)
RF Characteristics and Behavior
Electromagnetic spectrum, wavelength, amplitude and other RF characteristics, reflection, refraction and other RF behavior, RF propagation and basic types of modulation
RF Mathematics and Measurements
RF units of measure, basic RF mathematics, RF signal measurements, understand link budgets, antennas and hardware, RF units of measure, types of antennas and antenna systems commonly used with 802.11 WLANs, antenna polarization and gain, antenna implementation, types of antenna cables, connectors and other accessories
802.11 PHYs and Network Types
802.11 PHYs and network types, 802.11 frequency bands, 802.11 channels explained, OSI model layers and Wi-Fi, 802.11 physical layers (PHYs), throughput vs. data rate, RF modulation methods, 802.11 use case scenarios, WLAN operating modes including BSS, ESS and roaming
802.11 Network Devices
Access point features and capabilities, AP and WLAN management systems, wireless monitoring systems (analytics), WLAN controller functionality, network architecture planes, WLAN bridging, client devices, client device os configuration and power over ethernet (PoE) functionality
802.11 MAC Operations
802.11 frames, frame aggregation, guard interval, general frame format, PHY preamble, management, control and data frames and locating WLANs
802.11 Channel Access Methods
Differences between CSMA/CD and CSMA/CA, distributed coordination function (DCF), network allocation vector (NAV), clear channel assessment (CCA), interframe spacing (IFS), contention window (CW), quality of service in 802.11 WLANs, hybrid coordination function (HCF) and additional control frames and protection modes
WLAN Network Architectures
Control, management and data planes, WLAN controller solutions, network architectures, rf channel planning, service set configurations and cell sizing and interference
WLAN Requirements and Solutions
Explore WLAN deployment scenarios, BYOD and guest access, mobile device management, radio resource management (RRM) and other automatic RF management solutions and additional management features
Security Solutions for WLANs
Additional authentication features, deprecated standard security, weak security mechanisms, pre-shared key and IEEE 802.1X/EAP, wireless intrusion prevention systems (WIPS), protocol and spectrum analysis for security and using secure protocols
Site Surveys, Network Design and Validation
Survey processes, understanding requirements, verify design requirements, documentation, locating interference, spectrum analysis, application and throughput testing and protocol analysis
WLAN Troubleshooting
CWNP troubleshooting methodology, protocol analysis troubleshooting features, spectrum analysis troubleshooting features, RF interference, hidden nodes and connectivity problems
Remote Lab Familiarization
Overview, task 1: navigate the GigaWave remote lab, task 2: navigate the interactive diagram page and task 3: closing the lab
Lab 1: Visualizing RF Principles
Activity objective, visual objective, required resources, task 1: prepare the client laptop in the remote lab, task 2: use Ekahau to visualize free space path loss, task 3: use Ekahau to visualize attenuation and task 4: closing the lab
Lab 2: RF Mathematics
Activity objective, required resources, task 1: complete these power conversions, task 2: calculate EIRP and task 3: calculate a link budget
Lab 3: Visualizing Antenna Patterns
Activity objective, required resources, task 1: open the FSPL file in Ekahau, task 2: use various 2.4 antenna and observe the change in RF coverage and closing the lab
Lab 4: 802.11 Basics
Activity objective, task 1: analyze wireless frames and task 2: closing the lab
Lab 5: Initialize an Autonomous WLAN Deployment
Activity objective, task 1: configure an autonomous AP via CLI, task 2: configure your standalone AP from the GUI and task 3: closing the lab
Lab 6: Configure Security on Autonomous AP WLAN Deployment
Activity objective, task 1: configure the autonomous AP for PSK, task 2: configure Windows 7 client to connect to the Pod-X-Auto using PSK, task 3: add a local radius client to the autonomous AP, task 4: configure local RADIUS server on the autonomous AP, task 5: configure an SSID for local EAP on the autonomous AP, task 6: configure the Windows supplicant and Task 7: closing the lab
Lab 7: Configuring the WLC Central Switch WLAN Deployment
Activity objective, task 1: prepare the client laptop in the remote lab, task 2: review and modify management access, task 3: review AP status, task 4: configure a WLAN, task 5: associate the client, task 6: disassociate the client and task 7: closing the lab
Lab 8: Configuring Security in a Centralized WLAN Deployment
Activity objective, task 1: configure the data WLAN for PSK, task 2: configure the wireless client to connect to the PSK WLAN, task 3: modify the WLAN to support WPA2 with 802.1X authentication, task 4: configure the client and access the network, task 5: modify the WLAN to support WebAuth, task 6: create a local net user, task 7: connect the client to the WebAuth WLAN and task 8: closing the lab
Lab 9: Implement a WLC Local Switch WLAN Deployment Activity
Activity objective, task 1: configure the controller, task 2: connect to the WLAN and task 3: closing the lab
Lab 10: Configure Security on a Cloud WLAN Deployment
Activity objective, task 1: implement PSK authentication on a cloud WLAN deployment, task 2: implement local EAPPEAP on a cloud WLAN deployment, task 3: implement WebAuth on a cloud WLAN deployment and task 4: disable SSIDs on the cloud WLAN deployment
Lab 11: Perform Wi-Fi Scanning
Activity objective, topology, task 1: enable metageek insider, task 2: review 2.4 GHz activity, task 3: review 5 GHz activity and task 4: close the lab
Lab 12: Perform a Predictive WLAN Design
Activity objective, task 1: familiarization with Ekahau Site Survey Pro + Planner, task 2: perform a basic predictive WLAN design using a single floor layout and task 3: closing the lab
Lab 13: Perform Passive Site Survey
Activity objective, task 1: configure AP for spectrum expert AP mode of operation, task 2: configure Cisco Spectrum Expert – Spectrum Analyzer Software and task 3: closing the lab