Digital Communication over Fading Channels, 2nd Edition
December 2004, Wiley-IEEE Press
Like its predecessor, this Second Edition discusses in detail coherent and noncoherent communication systems as well as a large variety of fading channel models typical of communication links found in the real world. Coverage includes single- and multichannel reception and, in the case of the latter, a large variety of diversity types. The moment generating function (MGF)-based approach for performance analysis, introduced by the authors in the first edition and referred to in literally hundreds of publications, still represents the backbone of the book's presentation. Important features of this new edition include:
* An all-new, comprehensive chapter on transmit diversity, space-time coding, and the MIMO channel, focusing on performance evaluation
* Coverage of new and improved diversity schemes
* Performance analyses of previously known schemes in new and different fading scenarios
* A new chapter on the outage probability of cellular mobile radio systems
* A new chapter on the capacity of fading channels
* And much more
Digital Communication over Fading Channels, Second Edition is an indispensable resource for graduate students, researchers investigating these systems, and practicing engineers responsible for evaluating their performance.
PART 1: FUNDAMENTALS.
Chapter 1. Introduction.
Chapter 2. Fading Channel Characterization and Modeling.
Chapter 3. Types of Communication.
PART 2: MATHEMATICAL TOOLS.
Chapter 4. Alternative Representations of Classical Functions.
Chapter 5. Some Useful Expressions for Evaluating Average Error Probability Performance.
Chapter 6. New Representations of Some Probability Density and Cumulative Distribution Functions for Correlative Fading Applications.
PART 3: OPTIMUM RECEPTION AND PERFORMANCE EVALUATION.
Chapter 7. Optimum Receivers for Fading Channels.
Chapter 8. Performance of Single–Channel Receivers.
Chapter 9. Performance of Multichannel Receivers.
PART 4: MULTIUSER COMMUNICATION SYSTEMS.
Chapter 10. Outage Performance of Multiuser Communication Systems.
Chapter 11. Optimum Combining—A Diversity Technique for Communication Over Fading Channels in the Presence of Interference.
Chapter 12. Direct-Sequence Code-Division Multiple Access (DS-CDMA).
PART 5: CODED COMMUNICATION SYSTEMS.
Chapter 13. Coded Communicatuion over Fading Channels.
Chapter 14. Multichannel Transmission—Transmit Diversity and Space-Time Coding.
Chapter 15. Capacity of Fading Channels.
MOHAMED-SLIM ALOUINI, PhD, is Associate Professor in the Department of Electrical and Computer Engineering of the University of Minnesota, Minneapolis.