Fast Track to Ekahau AI Pro Training Courses

Why this Ekahau AI Pro training course?

This Fast-Track Ekahau AI Pro training course is a Fast-Track Alternative to the Ekahau ECSE Design course. The Fast-Track course provides comprehensive coverage of Wi-Fi network Planning, Design, Surveying and Reporting using Ekahau AI Pro and Ekahau Survey for iPad/Android in just 3 days.

Highly-focussed lecture sessions and extensive hands-on practical exercises with Ekahau AI Pro, plus on-site survey and predictive design exercises, are key features of this course.

Attendees also learn the key aspects of Wi-Fi life cycle management, including 802.11 / Wi-Fi network and RF essentials, Pre- and Post-deployment site surveys, Predictive design, Active and Passive Wi-Fi surveys, RF Spectrum analysis, plus many undocumented tips and techniques for expert Wi-Fi network engineering.

Ekahau AI Pro Training Course Objectives

On completing this course, you will be able to:

• Understand Radio Frequency (RF) fundamentals, including RF bands, RF channels, Signal Strength, dB, dBm, dBi
• Understand Wi-Fi network standards and Wi-Fi network operation
• Perform Predictive Wi-Fi network design for new and existing networks using Ekahau AI Pro
• Perform on-site Passive and Active Wi-Fi site surveys of existing Wi-Fi networks
• Capture and Analyse Wi-Fi survey data
• Perform RF spectrum analysis for Wi-Fi networks
• Understand Wi-Fi network Planning, Design, Site Survey and Reporting
• Optimise Wi-Fi networks for better coverage, capacity and performance.

Ekahau AI Pro Course Pre-requisites

Students should have the following knowledge and skills before attending this course:

• Ideally some existing experience with Ekahau AI Pro
• The essentials of Layer 2 Ethernet networking
• Wi-Fi standards (802.11n, 802.11ac and 802.11ax), 2.4GHz and 5GHz channels, Wi-Fi APs and clients
• Strong computer skills
• Each student must bring a laptop to the class (Microsoft Windows laptop or an Apple MacBook).

Hands-on Practicals

The course incorporates extensive hands-on practical labs with Ekahau AI Pro, including Predictive Wi-Fi network design and Site Survey with Ekahau AI Pro.

12 Months Post-Course Support

After completing this Ekahau AI Pro training course, delegates receive 12 months post-training support from LEVER Technology Group’s Wi-Fi network engineering team, to help them apply the technologies and skills they have learned with us.

Ekahau AI Pro Training Course Content

Day 1

Wi-Fi Network Essentials

• RF and Wi-Fi Standards Bodies
• IEEE 802.11 Standards, 802.11a/b/g/n/ac
• 802.11ax amendment – Wi-Fi 6 and Wi-Fi 6E
• Wi-Fi Alliance™ standards
• Standards for Wi-Fi network engineering

Wi-Fi Network Operation

• 802.11 Operating Modes, BSS, IBSS
• WLAN Radios
• Access Points
• Wi-Fi Clients
• Beacon Frames, SSID, BSSID
• Passive and Active Scanning
• Association and Authentication

Understanding RF Fundamentals

• Understanding Radio Waves
• RF Bandwidth
• RF Spectrum Analysis
• Wi-Fi RF Bands
• RF Laws and Standards
• DSSS and OFDM spread spectrum schemes
• Wi-Fi Channels
  • 2.4GHz, 5GHz and 6GHz
  • OFDM and subcarriers
  • 5GH spectrum
  • DFS and TPC
  • 6 GHz spectrum, AFC, USA (FCC) versus UK/ETSI/EU
  • Wi-Fi-7 and 320 MHz channels

Antennas and RF Signal Propagation

• RF signal propagation
• Multipath environments
• EM waves and Polarisation
• The Isotropic Radiator
• Passive antenna gain
• Example antenna types
• Polar Plots and antenna coverage patterns
• Antenna gain, dBi, dBd, dBr
• Half-power beamwidth
• Selecting antennas during Wi-Fi network design

RF Maths

• RF Signal Strength
• Why we use logarithms in Wi-Fi and RF maths
• Linear and Log power measurement: mW versus dBm
• Understanding dB and dBm
• The rules of 10s and 3s
• Received Signal Strength Indicator (RSSI)
• EIRP and RF maths calculations
• Inverse Square Law
• Free Space Path Loss (FSPL)

802.11 PHY: Modulation, Coding and Performance

• Amplitude, Frequency and Phase modulation
• BPSK, QPSK Phase Modulation and Constellations
• Quadrature Amplitude Modulation (QAM)
• Modulation and Coding Schemes (MCS)
• 11a (OFDM) and 11g (ERP) Data Rates
• 11n (HT) and 11ac (VHT) MCS
• Receiver Sensitivity vs Data Rate
• DRS/ARS, Cell sizing, range boundaries
• Sources of RF Noise and Interference
• Signal-to-Noise Ratio (SNR)
• Data Rate (MCS) versus Signal to Noise Ratio (SNR) and channel width

Advanced 802.11 / Wi-Fi Principles

• 802.11 Medium Access Control (MAC)
• 802.11 Frame Types
• Contention process
• Co-Channel and Adjacent Channel Interference
• Roaming in a Wi-Fi network
• 802.11n (HT) Enhancements
• 802.11ac (VHT) Enhancements
• Understanding MIMO and Spatial Streams
• Transmit Beamforming (TxBF)
• Multi-User MIMO
• Overview of 802.11ax – Wi-Fi 6 and Wi-Fi 6E

Day 2

Understanding Wi-Fi network Design and Survey

• The Wi-Fi WLAN lifecycle
• The 7 different types of Wi-Fi site survey
• Predictive Wi-Fi Network Design
• Passive versus Active Wi-Fi survey
• “AP-on-a-Stick” (APoS) surveys
• Post-Deployment “Validation” survey
• Defining the Wi-Fi RF Network Coverage specification
• Understanding and using the 4-step Capacity Planning process

Working with Ekahau AI Pro

• Importing and scaling floor plans
• Requirement Areas, Exclusion Areas
• Drawing and defining walls, Attenuation areas
• Drawing walls manually
• CAD file Import and wall classification
• Understanding Predictive Wi-Fi network design
• Key Ekahau Pro visualisations
• Wi-Fi network Coverage and Capacity Specifications
• Understanding the key Wi-Fi network Metrics, Criteria and Conditions
• Designing Wi-Fi networks for Coverage
• Signal Strength assessment, Primary, Secondary and Tertiary coverage
• Assessing Signal-to-Noise Ratio (SNR)
• Using Noise Floors versus Measured Noise
• Assessing alternative AP coverage provision
• Assessing RF Channel Overlap and Channel Interference
• Assessing Associated and Predicted Data Rates

Wi-Fi Network Design with Ekahau AI Pro

• Using Ekahau AI Auto-Planner
• Improving on an Auto-Planner design
• How to create Optimised Wi-Fi network designs
• Hands-on Wi-Fi Design exercises:
  • Designing for typical Office space
  • Designing Wi-Fi for your own use cases

Advanced Wi-Fi Network Design

• 3D Buildings, Alignment Points, Floor attenuation
• Designing Wi-Fi for multi-floor buildings
• Hands-on Design exercises:
  • Designing Wi-Fi networks for Capacity
  • Advanced Wi-Fi Design for Office Space
  • Determining RF attenuation for walls and Attenuation Areas

Day 3

Surveying and Assessing an Existing Wi-Fi network

• Surveying with Ekahau Sidekick and Sidekick 2
• Visual inspection of the Wi-Fi installation
• Performing Passive and Active surveys with Ekahau Sidekick
• Using Ekahau Insights
• Drawing immediate conclusions
• Identifying the Design flaws in a Wi-Fi network
• Assessing the Capacity of a Wi-Fi network
• Identifying the Design flaws in a Wi-Fi network
• Identifying the Implementation flaws in a Wi-Fi network
• Wi-Fi network Diagnosis
• Performing critical tests on a Wi-Fi network
• Reviewing the critical ESS visualisations
• Drawing conclusions about the installed Wi-Fi networks
  • How well are the Coverage requirements met?
  • How well are the Capacity requirements met?
  • How well is the Wi-Fi network configured?
  • What improvements can be made to the network?
• Re-designing an Existing Wi-Fi network

Advanced Site Survey and Design

• When to perform an APoS survey
• Limitations of Predictive Design
• Equipment to use
• Configuring the equipment
• Choosing locations for APoS
• Performing your APoS Survey
• Surveying the Coverage vs Interference Range
• Freezing APs
• Throughput Testing
• APoS – practical lab exercise

RF Spectrum Analysis

• What can we learn from Spectrum Analysis?
• RF signatures, Classifying signals
• Identifying non-Wi-Fi interference

Wi-Fi Network Troubleshooting

• The Wi-Fi Network Troubleshooting process
• Using Ekahau Analyzer
• Using Ekahau Capture

Introduction to Ekahau Reporting

• Generating Ekahau AI Pro reports
• Using Ekahau AI Pro Report Templates