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9780470686690

MIMO-OFDM for LTE, WiFi and WiMAX Coherent versus Non-coherent and Cooperative Turbo Transceivers

by ; ; ;
  • ISBN13:

    9780470686690

  • ISBN10:

    0470686693

  • Edition: 1st
  • Format: Hardcover
  • Copyright: 2010-11-01
  • Publisher: Wiley-IEEE Press

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Summary

MIMO-OFDM for LTE, WIFI and WIMAX : Coherent versus Non-Coherent and Cooperative Turbo-Transceivers provides an up-to-date portrayal of wireless transmission based on OFDM techniques augmented with Space-Time Block Codes (STBCs) and Spatial-Division Multiple Access (SDMA). The volume also offers an in-depth treatment of cutting-edge Cooperative Communications.This monograph collates the latest techniques in a number of specific design areas of turbo-detected MIMO-OFDM wireless systems. As a result a wide range of topical subjects are examined, including channel coding and multiuser detection (MUD), with a special emphasis on optimum maximum-likelihood (ML) MUDs, reduced-complexity genetic algorithm aided near-ML MUDs and sphere detection. The benefits of spreading codes as well as joint iterative channel and data estimation are only a few of the radical new features of the book.Also considered are the benefits of turbo and LDPC channel coding, the entire suite of known joint coding and modulation schemes, space-time coding as well as SDM/SDMA MIMOs within the context of various application examples. The book systematically converts the lessons of Shannonrs"s information theory into design principles applicable to practical wireless systems; the depth of discussions increases towards the end of the book. Discusses many state-of-the-art topics important to todayrs"s wireless communications engineers. Includes numerous complete system design examples for the industrial practitioner. Offers a detailed portrayal of sphere detection. Based on over twenty years of research into OFDM in the context of various applications, subsequently presenting comprehensive bibliographies.

Author Biography

Dr Lajos Hanzo, School of Electronics and Computer Science, University of Southampton
Lajos is Professor of Wireless multimedia communications in the School of Electronics and Computer Science. He has over 30 years experience in communications and has held various academic posts in Hungary, Germany and the UK. He has been a member of the academic staff at Southampton University since 1986 where he currently holds the Chair in Telecommunications. Professor Hanzo has published 12 titles with Wiley/IEEE and has published about 700 research papers.

Dr Yosef (Jos) Akhtman, School of Electronics and Computer Science, University of Southampton
Jos Akhtman is currently working as a Senior Research Assistant in the Communications Group, ECS. His major subject of interest is optimization algorithms for advanced multi-antenna multi-carrier communication systems. Specifically, iterative channel estimation, detection, space-time processing and turbo transceiver architecture. From 2000 to 2002 he was working as a Research Engineer in VYYO Ltd., Jerusalem, Israel and has co-authored numerous journal articles and book chapters.

Dr Ming Jiang Advanced Technology, Standards and Regulation (ATSR) of Samsung Electronics Research Institute (SERI), UK
Since April 2006, Dr. Jiang has been with Advanced Technology, Standards and Regulation (ATSR) of Samsung Electronics Research Institute (SERI), working on the European FP6 WINNER project as well as on internal projects related to advanced wireless communication systems. From 2002 to 2005, he was involved in the Core 3 research project of the Mobile Virtual Centre of Excellence (VCE), UK on air-interface algorithms designed for MIMO OFDM systems. His research interests include multi-user detection, channel estimation, space-time processing, heuristic and adaptive optimization, frequency-hopping and MIMO OFDM and OFDMA systems. Dr. Jiang has co-authored one IEEE Press book chapter and several IEE/IEEE journal and conference papers.

Table of Contents

About the Authors
OtherWiley and IEEE Press Books on Related Topics
Acknowledgments
Preface
List of Symbols
Introduction to OFDM and MIMO-OFDM
OFDM History
OFDM Schematic
Channel Estimation for Multicarrier
Signal Detection in MIMO-OFDM Systems
Iterative Signal Processing for SDM-OFDM
System Model
SDM-OFDM System Model
Novel Aspects and Outline of the Book
Chapter Summary
OFDM Standards
Wi-Fi
3GPP Long-Term Evolution
WiMAX Evolution
Chapter Summary
Coherently Detected SDMA-OFDM Systems
Channel Coding Assisted STBC-OFDM Systems
Introduction
Space-Time Block Codes
Channel Coded Space-Time Block Codes
Channel Coding Aided Space-Time Block Coded OFDM
Chapter Summary
Coded Modulation Assisted Multi-User SDMA-OFDM Using Frequency-Domain Spreading
Introduction
System Model
Simulation Results
Chapter Summary
Hybrid Multi-User Detection for SDMA-OFDM Systems
Introduction
Genetical Algorithm Assisted Multi-User Detection
Enhanced GA-based Multi-User Detection
Chapter Summary
DS-Spreading and Slow Subcarrier-Hopping Aided Multi-User SDMA-OFDM Systems
Conventional SDMA-OFDM Systems
Introduction to Hybrid SDMA-OFDM
Subband-Hopping Versus Subcarrier-Hopping
System Architecture
Simulation Results
Complexity Issues
Conclusions
Chapter Summary
Channel Estimation for OFDM and MC-CDMA
Pilot-Assisted Channel Estimation
Decision Directed Channel Estimation
A Posteriori FD-CTF Estimation
A Posteriori CIR Estimation
Parametric FS-CIR Estimation
Time-Domain A Priori CIR Tap Prediction
PASTD Aided DDCE
Channel Estimation for MIMO-OFDM
Iterative Joint Channel Estimation and MUD for SDMA-OFDM Systems
Introduction
System Overview
GA-assisted Iterative Joint Channel Estimation and MUD
Simulation Results
Conclusions
Chapter Summary
Coherent versus Non-Coherent and Cooperative OFDM Systems List of Symbols in Part II
Reduced-Complexity Sphere Detection for Uncoded SDMA-OFDM Systems
Introduction
Principle of Sphere Detection
Complexity-Reduction Schemes for SD
Comparison of the Depth-First, K-Best and OHRSA Detectors
Chapter Conclusions
Reduced-Complexity Iterative Sphere Detection for Channel Coded SDMA-OFDM Systems
Introduction
Channel Coded Iterative Center-Shifting SD
Apriori-LLR-Threshold-Assisted Low-Complexity SD
Unity-Rate-Code-Aided Three-Stage Iterative Receiver Employing SD
Chapter Conclusions
Sphere Packing Modulated STBC-OFDM and its Sphere Detection
Introduction
Orthogonal Transmit Diversity Design with Sphere Packing Modulation
Sphere Detection Design for Sphere Packing Modulation
Chapter Conclusions
Multiple-Symbol Differential Sphere Detection for Cooperative OFDM
Introduction
Principle of Single-Path Multiple-Symbol Differential Sphere Detection
Multi-Path MSDSD Design for Cooperative Communication
Chapter Conclusions
Resource Allocation for the DifferentiallyModulated Cooperative Uplink
Introduction
Performance Analysis of the Cooperation-Aided Uplink
Cooperating-User-Selection for the Uplink
Joint CPS and CUS for the Differential Cooperative Cellular Uplink Using APC
Chapter Conclusions
The Near-Capacity DifferentiallyModulated Cooperative Cellular Uplink
Introduction
Channel Capacity of Non-coherent Detectors
Soft-Input Soft-OutputMSDSD
Approaching the Capacity of the Differentially Modulated Cooperative Cellular Uplink
Chapter Conclusions
Coherent SDM-OFDM Systems
Multi-Stream Detection for SDM-OFDM Systems
SDM/V-BLAST OFDM Architecture
Linear Detection Methods
Non-Linear SDM Detection Methods
Performance Enhancement Using Space-Frequency Interleaving
Performance Comparison and Discussion
Conclusions
Approximate Log-MAP SDM-OFDM Multi-Stream Detection
Optimized Hierarchy Reduced Search Algorithm-Aided SDM Detection
Iterative Channel Estimation and Multi-Stream Detection for SDM-OFDM
Iterative Signal Processing
Turbo Forward Error Correction Coding
Iterative Detection - Decoding
Iterative Channel Estimation - Detection - Decoding
Summary, Conclusions and Future Research
Summary of the Results
Suggestions for Future Research
A Appendix to Chapter 5
A Brief Introduction to Genetic Algorithms
Normalization of the Mutation-Induced Transition Probability
Glossary
Bibliography
Subject Index
Author Index
Table of Contents provided by Publisher. All Rights Reserved.

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