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Digital Communication over Fading Channels: A Unified Approach to Performance Analysis

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Marvin K. Simon, Mohamed-Slim Alouini

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Wiley

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A unified presentation, broad coverage, single-volume convenience

This timesaving reference provides a unified approach to the performance analysis of digital communication systems over generalized fading channels. Employing alternative forms of such classical mathematical functions as the Gaussian Q-function, the Marcum Q-function, and the incomplete Gamma function, the book expresses communication system error probability performance in terms of the moment generation function (MGF) of the fading process. This MGF-based approach provides the unifying backbone of the book.

Digital Communication over Fading Channels discusses in detail coherent, differentially 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 also includes single- and multichannel reception and, in the case of the latter, a large variety of diversity types. For each combination of communication type, channel fading model, and diversity type, the average bit error rate and/or symbol error rate is expressed in an easy-to-evaluate form. Special features include:
* Important results previously scattered over many publications-now in a single volume
* Simplified results heretofore available only in complex forms
* Extremely broad coverage of topics
* Explores practical applications, including the problem of optimum combining in the presence of co-channel interference

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Table Of Contents:

FUNDAMENTALS.
Fading Channel Characterization and Modeling.
Types of Communication.
MATHEMATICAL TOOLS.
Alternative Representations of Classical Functions.
Useful Expressions for Evaluating Average Error Probability Performance.
New Representations of Some PDFs and CDFs for Correlative Fading Applications.
OPTIMUM RECEPTION AND PERFORMANCE EVALUATION.
Optimum Receivers for Fading Channels.
Performance of Single Channel Receivers.
Performance of Multichannel Receivers.
APPLICATION IN PRACTICAL COMMUNICATION SYSTEMS.
Optimum Combining: A Diversity Technique for Communication Over Fading Channels in the Presence of Interference.
Direct-Sequence Code-Division Multiple Access.
FURTHER EXTENSIONS.
Coded Communication Over Fading Channels.
INDEX.

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