Titre :	Signal Processing for Mobile Communications Handbook
Type de document :	texte imprimé
Auteurs :	Mohamed Ibnkahla, Auteur
Editeur :	Boca Raton; London; New York : CRC Press
Année de publication :	2004
Importance :	882 p.
Présentation :	couv. ill. en coul., ill.
Format :	26 cm.
ISBN/ISSN/EAN :	978-0-84931-657-9
Langues :	Anglais (eng)
Catégories :	TELECOMMUNICATION
Index. décimale :	28-04 Traitement du signal appliqué aux télécommunications
Résumé :	In recent years, a wealth of research has emerged addressing various aspects of mobile communications signal processing. New applications and services are continually arising, and future mobile communications offer new opportunities and exciting challenges for signal processing. The Signal Processing for Mobile Communications Handbook provides a comprehensive survey of signal processing techniques used in mobile communications that concern the transmitter, the receiver, and the propagation channel. Distinguished contributors discuss a spectrum of topics, including 4-G mobile communication challenges, adaptive coded modulation, channel modeling, estimation and identification, diversity combining and adaptive equalization, multi-user detection, DSP for OFDM, synchronization, and more. Emerging techniques such as neural networks, Markov Chain Monte Carlo (MCMC) methods, time-frequency analysis, and Chaos are also explored. Presented in a tutorial format with hundreds of figures and tables, this handbook makes signal processing as applied to digital communications accessible for all professionals, researchers, and students involved in mobile communications.
Note de contenu :	CONTENTS PART I INTRODUCTION 1 Signal Processing for Future Mobile Communications Systems: Challenges and Perspectives PART II CHANNEL MODELING AND ESTIMATION 2 Multipath Propagation Models for Broadband Wireless Systems 3 Modeling and Estimation of Mobile Channels 4 Mobile Satellite Channels: Statistical Models and Performance Analysis 5 Mobile Velocity Estimation for Wireless Communications PART III MODULATION TECHNIQUES FOR WIRELESS COMMUNICATIONS 6 Adaptive Coded Modulation for Transmission over Fading Channels 7 Signaling Constellations for Transmission over Nonlinear Channels 8 Carrier Frequency Synchronization for OFDM Systems 9 Filter-Bank Modulation Techniques for Transmission over Frequency-Selective Channels PART IV MULTIPLE ACCESS TECHNIQUES 10 Spread-Spectrum Techniques for Mobile Communications 11 Multiuser Detection for Fading Channels PART V MIMO SYSTEMS 12 Principles of MIMO-OFDM Wireless Systems 13 Space-Time Coding and Signal Processing for Broadband Wireless Communications 14 Linear Precoding for MIMO Systems 15 Performance Analysis of Multiple Antenna Systems PART VI EQUALIZATION AND RECEIVER DESIGN 16 Equalization Techniques for Fading Channels 17 Low-Complexity Diversity Combining Schemes for Mobile Communications 18 Overview of Equalization Techniques for MIMO Fading Channels 19 Neural Networks for Transmission over Nonlinear Channels PART VII VOICE OVER IP 20 Voice over IP and Wireless: Principles and Challenges PART VIII WIRELESS GEOLOCATION TECHNIQUES 21 Geolocation Techniques for Mobile Radio Systems 22 Adaptive Arrays for GPS Receivers PART IX POWER CONTROL AND WIRELESS NETWORKING 23 Transmitter Power Control in Wireless Networking: Basic Principles and Core Algorithms 24 Signal Processing for Multiaccess Communication Networks PART X EMERGING TECHNIQUES AND APPLICATIONS 25 Time-Frequency Signal Processing for Wireless Communications 26 Monte Carlo Signal Processing for Digital Communications: Principles and Applications 27 Principles of Chaos Communications 28 Adaptation Techniques and Enabling Parameter Estimation Algorithms for Wireless Communications Systems -INDEX

Signal Processing for Mobile Communications Handbook [texte imprimé] / Mohamed Ibnkahla, Auteur . - Boca Raton; London; New York : CRC Press, 2004 . - 882 p. : couv. ill. en coul., ill. ; 26 cm.
ISBN : 978-0-84931-657-9
Langues : Anglais (eng)

Catégories :	TELECOMMUNICATION
Index. décimale :	28-04 Traitement du signal appliqué aux télécommunications
Résumé :	In recent years, a wealth of research has emerged addressing various aspects of mobile communications signal processing. New applications and services are continually arising, and future mobile communications offer new opportunities and exciting challenges for signal processing. The Signal Processing for Mobile Communications Handbook provides a comprehensive survey of signal processing techniques used in mobile communications that concern the transmitter, the receiver, and the propagation channel. Distinguished contributors discuss a spectrum of topics, including 4-G mobile communication challenges, adaptive coded modulation, channel modeling, estimation and identification, diversity combining and adaptive equalization, multi-user detection, DSP for OFDM, synchronization, and more. Emerging techniques such as neural networks, Markov Chain Monte Carlo (MCMC) methods, time-frequency analysis, and Chaos are also explored. Presented in a tutorial format with hundreds of figures and tables, this handbook makes signal processing as applied to digital communications accessible for all professionals, researchers, and students involved in mobile communications.
Note de contenu :	CONTENTS PART I INTRODUCTION 1 Signal Processing for Future Mobile Communications Systems: Challenges and Perspectives PART II CHANNEL MODELING AND ESTIMATION 2 Multipath Propagation Models for Broadband Wireless Systems 3 Modeling and Estimation of Mobile Channels 4 Mobile Satellite Channels: Statistical Models and Performance Analysis 5 Mobile Velocity Estimation for Wireless Communications PART III MODULATION TECHNIQUES FOR WIRELESS COMMUNICATIONS 6 Adaptive Coded Modulation for Transmission over Fading Channels 7 Signaling Constellations for Transmission over Nonlinear Channels 8 Carrier Frequency Synchronization for OFDM Systems 9 Filter-Bank Modulation Techniques for Transmission over Frequency-Selective Channels PART IV MULTIPLE ACCESS TECHNIQUES 10 Spread-Spectrum Techniques for Mobile Communications 11 Multiuser Detection for Fading Channels PART V MIMO SYSTEMS 12 Principles of MIMO-OFDM Wireless Systems 13 Space-Time Coding and Signal Processing for Broadband Wireless Communications 14 Linear Precoding for MIMO Systems 15 Performance Analysis of Multiple Antenna Systems PART VI EQUALIZATION AND RECEIVER DESIGN 16 Equalization Techniques for Fading Channels 17 Low-Complexity Diversity Combining Schemes for Mobile Communications 18 Overview of Equalization Techniques for MIMO Fading Channels 19 Neural Networks for Transmission over Nonlinear Channels PART VII VOICE OVER IP 20 Voice over IP and Wireless: Principles and Challenges PART VIII WIRELESS GEOLOCATION TECHNIQUES 21 Geolocation Techniques for Mobile Radio Systems 22 Adaptive Arrays for GPS Receivers PART IX POWER CONTROL AND WIRELESS NETWORKING 23 Transmitter Power Control in Wireless Networking: Basic Principles and Core Algorithms 24 Signal Processing for Multiaccess Communication Networks PART X EMERGING TECHNIQUES AND APPLICATIONS 25 Time-Frequency Signal Processing for Wireless Communications 26 Monte Carlo Signal Processing for Digital Communications: Principles and Applications 27 Principles of Chaos Communications 28 Adaptation Techniques and Enabling Parameter Estimation Algorithms for Wireless Communications Systems -INDEX