Chapter 1. 1. Overview of radio communication signals and system.- Chapter 2. Digital Modulations.- Chapter 3. Matched Filter & Nyquist pulse.- Chapter 4.Radio propagation and RF channels.- Chapter 5.OFDM signals and systems.- Chapter 6. Channel Coding.- Chapter 7. Synchronization of frame, symbol timing and carrier.- Chapter 8.Practical implementation issues.- Chapter 9. Review of signals and systems, and of probability and random process.
Dr. Sung-MoonMichael Yang is a practicing communication systems engineer specializing in digital communication signals and systems, with an emphasis on wireless channels. In his career he worked in the communication industry in Silicon Valley for such companies as Hewlett-Packard Laboratory and Harris Microwave Communication Division. More recently he worked in Southern California for companies such as Boeing and SpaceX on the design and development of wireless system products. He has also taught digital signal processing (DSP), wireless communication systems, and analog circuits at various universities, e.g., ‘DSP for communication systems’ at UCI, DCE. He received a BS from Seoul National University, Seoul, Korea, and an MS and PhD from UCLA, all in Electrical Engineering.
This book serves as an easily accessible reference for wireless digital communication systems. Topics are presented with simple but non-trivial examples and then elaborated with their variations and sophistications. The book includes numerous examples and exercises to illustrate key points. For this new edition, a set of problems at the end of each chapter is added, for a total of 298 problems. The book emphasizes both practical problem solving and a thorough understanding of fundamentals, aiming to realize the complementary relationship between practice and theory. Though the author emphasizes wireless radio channels, the fundamentals that are covered here are useful to different channels - digital subscriber line, coax, power lines, optical fibers, and even Gigabit serial connections.
The material in chapters 5 (OFDM), 6 (Channel coding), 7 (Synchronization), and 8 (Transceivers) contains new and updated information, not explicitly available in typical textbooks, and useful in practice.
For example, in chapter 5, all known orthogonal frequency division multiplex signals are derived from its digitized analog FDM counterparts. Thus, it is flexible to have different pulse shape for subcarriers, and it can be serial transmission as well as block transmission. Currently predominant cyclic prefix based OFDM is a block transmission using rectangular pulse in time domain. This flexibility may be useful in certain applications.
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