WiMAX Technical Training Courses

Tuesday, September 25 - Wednesday, September 26
2-Day WiMAX and 802.16e: Broadband Wireless Standards™

Course Description:
This DoceoTech course was co-authored by Subbu Ponnuswamy, 802.16 standards contributor and co-author of WirelessMAN: Inside the IEEE 802.16 Standard for Wireless Metropolitan Networks (IEEE Press). Dr. Todor Cooklev, also a co-author of this DoceoTech course, was chosen by the IEEE to write their definitive book that covers all wireless standards, which is named Wireless Communication Standards: A Study of IEEE 802.11, 802.15, 802.16.

IEEE 802.16-2004 and 802.16e are standards for broadband wireless access technology. The 802.16-based implementations named WiMAX (Worldwide Interoperability for Microwave Access) are used for applications that include mobile broadband, "last mile" fixed broadband connections, hotspot and cellular backhaul, and high-speed enterprise connectivity for businesses.

This course will provide the student with detailed knowledge on the contents of WiMAX and 802.16 standards, as well as WiMAX technologies, trends, and issues. We have included content that is emerging from recent IEEE 802.16 working group meetings and letter ballots. These are the critical topics for today's development projects.

Pre-Requisite:
A technical background in wireless communications

Audience:
This course is designed for students who are working on WiMAX and 802.16 products and services, or expect to be working on those projects soon. A student who is just beginning to work on broadband wireless projects will gain a full understanding of the entire set of 802.16 standards. Students who are working in WiMAX will deepen their understanding of standards issues, operations and management concerns.

A technical class covering the 802.16 standard, and the WiMAX implementations that are most relevant to your next design project

Course Outline:

  • Overview of Broadband Wireless Markets, Applications, and Requirements
    • Architecture of a broadband wireless access network
    • Line of Sight vs Non-Line-of-Sight
    • Mobility
    • Advanced Antenna Systems
    • Quality of Service
    • The role of the WiMAX Forum™
  • 802.16 High-level Architecture
    • Physical Architecture
    • Protocol Architecture
    • Time Slots and Time Division Multiple Access
    • Uplink and Downlink Channel Descriptors and Maps
    • Time Division Duplex and Frequency Division Duplex Options
    • Which Implementation Options are most common?
  • 802.16 Medium Access Control
    • Steps for Joining an 802.16 network
    • Addressing and Encapsulation
    • Bandwidth Requests and Allocation
    • Automatic repeat request (ARQ)
    • Security
    • Quality of Service Scheduling Rules
    • MAC enhancements for advanced antenna systems
  • 802.16 Physical Layer
    • Why are there so many PHY options?
    • Multipath: Why multi-carrier approaches?
    • Orthogonal Frequency Division Multiplexing (OFDM)
    • Multi-carrier OFDM for 2-to-11 GHz Licensed Operation
    • Multi-carrier OFDM for 2-to-11 GHz Unlicensed Operation
    • Orthogonal Frequency Division Multiplexing Access (OFDMA)
  • Frequency Reuse in 802.16 Networks
    • Full Usage of Sub-carriers (FUSC)
    • Partial Usage of Sub-carriers (PUSC)
  • Mobility Management
    • 802.16e MAC and PHY enhancements
    • Scalable OFDMA
    • Handover
    • Cell Selection
  • WiMAX Profiles
    • WiMAX Forum Certification
  • Appendix: Options for 802.16 Implementers
    • Advanced antenna systems
    • Coexistence problems and specifications

WiMAX, WiMAX Forum, and WiMAX Forum Certified are trademarks of the WiMAX Forum. IEEE 802.16 is a trademark of the IEEE.