Digital Communications
by PROAKIS JOHN G.Edition: 4th
Format: Hardcover
Pub. Date: 2000-08-15
Publisher(s): McGraw-Hill Science/Engineering/Math
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Summary
Revised to reflect all the current trends in the digital communications field, this all-inclusive guide delivers an outstanding introduction to the analysis and design of digital communication systems. Includes expert coverage of new topics: Turbocodes, Turboequalization, Antenna Arrays, Digital Cellular Systems, and Iterative Detection. Convenient, sequential organization begins with a look at the historyo and classification of channel models and builds from there.
Table of Contents
1 Introduction2 Probability and Stochastic Processes3 Source Coding4 Characterization of Communication Signals and Systems5 Optimum Receivers for the Additive White Gaussian Noise Channel6 Carrier and Symbol Synchronization7 Channel Capacity and Coding 8 Block and Convolutional Channel Codes9 Signal Design for Band-Limited Channels10 Communication through Band-Limited Linear Filter Channels11 Adaptive Equalization12 Multichannel and Multicarrier Systems13 Spread Spectrum Signals for Data Communications14 Digital Communication through Fading Multipath Channels15 Multiuser CommunicationsAppendix A The Levinson-Durbin AlgorithmAppendix B Error Probability for Multichannel Binary SignalsAppendix C Error Probabilities for Adaptive Reception of M-phase SignalsAppendix D Square-Root FactorizationReferences and BibliographyIndex
3 Source Coding4 Characterization of Communication Signals and Systems5 Optimum Receivers for the Additive White Gaussian Noise Channel6 Carrier and Symbol Synchronization7 Channel Capacity and Coding 8 Block and Convolutional Channel Codes9 Signal Design for Band-Limited Channels10 Communication through Band-Limited Linear Filter Channels11 Adaptive Equalization12 Multichannel and Multicarrier Systems13 Spread Spectrum Signals for Data Communications14 Digital Communication through Fading Multipath Channels15 Multiuser CommunicationsAppendix A The Levinson-Durbin AlgorithmAppendix B Error Probability for Multichannel Binary SignalsAppendix C Error Probabilities for Adaptive Reception of M-phase SignalsAppendix D Square-Root FactorizationReferences and BibliographyIndex
5 Optimum Receivers for the Additive White Gaussian Noise Channel6 Carrier and Symbol Synchronization7 Channel Capacity and Coding 8 Block and Convolutional Channel Codes9 Signal Design for Band-Limited Channels10 Communication through Band-Limited Linear Filter Channels11 Adaptive Equalization12 Multichannel and Multicarrier Systems13 Spread Spectrum Signals for Data Communications14 Digital Communication through Fading Multipath Channels15 Multiuser CommunicationsAppendix A The Levinson-Durbin AlgorithmAppendix B Error Probability for Multichannel Binary SignalsAppendix C Error Probabilities for Adaptive Reception of M-phase SignalsAppendix D Square-Root FactorizationReferences and BibliographyIndex
7 Channel Capacity and Coding 8 Block and Convolutional Channel Codes9 Signal Design for Band-Limited Channels10 Communication through Band-Limited Linear Filter Channels11 Adaptive Equalization12 Multichannel and Multicarrier Systems13 Spread Spectrum Signals for Data Communications14 Digital Communication through Fading Multipath Channels15 Multiuser CommunicationsAppendix A The Levinson-Durbin AlgorithmAppendix B Error Probability for Multichannel Binary SignalsAppendix C Error Probabilities for Adaptive Reception of M-phase SignalsAppendix D Square-Root FactorizationReferences and BibliographyIndex
9 Signal Design for Band-Limited Channels10 Communication through Band-Limited Linear Filter Channels11 Adaptive Equalization12 Multichannel and Multicarrier Systems13 Spread Spectrum Signals for Data Communications14 Digital Communication through Fading Multipath Channels15 Multiuser CommunicationsAppendix A The Levinson-Durbin AlgorithmAppendix B Error Probability for Multichannel Binary SignalsAppendix C Error Probabilities for Adaptive Reception of M-phase SignalsAppendix D Square-Root FactorizationReferences and BibliographyIndex
11 Adaptive Equalization12 Multichannel and Multicarrier Systems13 Spread Spectrum Signals for Data Communications14 Digital Communication through Fading Multipath Channels15 Multiuser CommunicationsAppendix A The Levinson-Durbin AlgorithmAppendix B Error Probability for Multichannel Binary SignalsAppendix C Error Probabilities for Adaptive Reception of M-phase SignalsAppendix D Square-Root FactorizationReferences and BibliographyIndex
13 Spread Spectrum Signals for Data Communications14 Digital Communication through Fading Multipath Channels15 Multiuser CommunicationsAppendix A The Levinson-Durbin AlgorithmAppendix B Error Probability for Multichannel Binary SignalsAppendix C Error Probabilities for Adaptive Reception of M-phase SignalsAppendix D Square-Root FactorizationReferences and BibliographyIndex
15 Multiuser CommunicationsAppendix A The Levinson-Durbin AlgorithmAppendix B Error Probability for Multichannel Binary SignalsAppendix C Error Probabilities for Adaptive Reception of M-phase SignalsAppendix D Square-Root FactorizationReferences and BibliographyIndex
Appendix B Error Probability for Multichannel Binary SignalsAppendix C Error Probabilities for Adaptive Reception of M-phase SignalsAppendix D Square-Root FactorizationReferences and BibliographyIndex
Appendix D Square-Root FactorizationReferences and BibliographyIndex
Index
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