Millimeter Wave Wireless Communications for Fifth Generation (5G)

Millimeter Wave Wireless Communications for Fifth Generation (5G)
Millimeter Wave Wireless Communications for Fifth Generation (5G)
English | MP4 | AVC 1280×720 | AAC 44KHz 2ch | 11h 21m | 1.60 GB

This course covers the fundamental communications, circuits, antennas, and propagation issues surrounding emerging 60 GHz wireless LAN and cellular/backhaul applications. The course is developed and delivered by Prof. Theodore (Ted) Rappaport, a pioneering researcher and educator in millimeter wave wireless communications, wireless systems, and radio propagation, and closely follows the newest textbook, Millimeter Wave Wireless Communications, on the subject.

In this video training, Professor Rappaport starts by providing an overview to the basics in ultrawideband digital communications. He then introduces topics such as MmWave Propagation, ray tracing, Channel Models, and Antennas. He ends the first section with a discussion on RF and Analog Circuits and Systems for mmWave transceivers. In the second section, Professor Rappaport covers Ultrawideband Baseband circuits, Beamforming, Networking, and device discovery. He describes Modulation, Coding and Relay approaches for mmWave wireless. Finally, he ends the program with a discussion of current 60 GHz mmWave wireless LAN standards.

What You Will Learn

  • Understanding of new multi-Gigabit per second products and applications, mmWave signal propagation, analog and digital circuit design, mmWave antenna designs, and current and emerging wireless standards.
  • Discussion of comprehensive mmWave wireless design issues for 60 GHz and other mmWave bands, from channel to antenna to receiver, introducing emerging design techniques that will be invaluable for research engineers in both industry and academia.
Table of Contents

Day 1: Prerequisites and Fundamentals
1.1 MmWave promise and applications- a new frontier
1.2 Basics in Ultrawideband digital communications: ultrawideband signaling, modulation, coding, equalization and MIMO communications
1.3 MmWave Propagation, ray tracing, Channel Models, and Antennas
1.4 RF and Analog Circuits and Systems for mmWave transceivers

Day 2: MmWave Design and Applications
2.1 Ultrawideband Baseband circuits: A/D and D/A
2.2 Beamforming, Networking and device discovery
2.3 Modulation, Coding and Relay approaches for mmWave wireless
2.4 Current 60 GHz mmWave wireless LAN standards


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