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MIMO
From Theory to Implementation

This book is unique in bringing together a comprehensive description of the state-of-the-art theory behind MIMO techniques with solid practical guidance for engineers on how to implement the techniques in compliance with the standards

Alain Sibille (Author), Claude Oestges (Author), Alberto Zanella (Author)

9781493301225, Elsevier Science

Paperback / softback, published 2 April 2012

360 pages, Approx. 100 illustrations
26 x 18.3 x 2.3 cm, 0.45 kg

Foreword from Arogyaswami Paulraj, Professor (Emeritus), Stanford University (USA)

ForewordPrefaceAbout the Editors, Authors and ContributorsIntroductionPart I MIMO Fundamentals Chapter 1 A Short Introduction to MIMO Information Theory 1.1 The Shannon-Wiener Legacy: From 1948 to 2008 1.2 Preliminaries 1.3 Information Theoretic Aspects 1.4 Signal Processing Aspects 1.5 Wiener vs. Shannon: An Ever Closer Union Chapter 2 MIMO Propagation and Channel Modeling 2.1 Introduction 2.2 Model Classification 2.3 Parameters of the MIMO Radio Channel 2.4 CSI and Channel Randomness 2.5 What Kind of Correlation in MIMO? 2.6 MIMO Measurements 2.7 What Makes a Good Channel Model? 2.8 Examples of MIMO Radio Channel Models 2.9 Some Conclusions Acknowledgment Chapter 3 Space Time Codes and MIMO Transmission 3.1 Introduction 3.2 Diversity and Multiplexing Gain 3.3 Theory of Space-time Coding 3.4 Space-time Code 3.5 Spatial Multiplexing 3.6 Precoding 3.7 MIMO in Current and Emerging Standards 3.8 Summary Chapter 4 Interference Functions - A Mathematical Framework for MIMO Interference Networks 4.1 Multiuser Channels 4.2 A General Framework for Optimizing Interference Networks 4.3 Joint Interference Mitigation and Resource Allocation 4.4 Implementation AspectsPart II Implementation Chapter 5 Advanced Transmitter and Receiver Design 5.1 Introduction 5.2 Turbo Equalization 5.3 Turbo Equalization on Frequency-Selective MIMO Channels 5.4 Turbo Synchronization 5.5 Turbo Synchronization on Frequency-Selective MIMO Channels Chapter 6 Implementing Scalable List Detectors for MIMO-SDM in LTE 6.1 Introduction 6.2 Radius-Based Detector Algorithm 6.3 Mapping of the Radius-Based Detector 6.4 SSFE Detector 6.5 Conclusions Chapter 7 IEEE 802.11n Implementation 7.1 IEEE 802.11n PHY Layer Introduction 7.2 IEEE 802.11n Transmitter Part 7.3 IEEE 802.11n Receiver Part 7.4 Simulation Results 7.5 Conclusion Chapter 8 WiMAX Implementation 8.1 Introduction 8.2 Existing Schemes in IEEE 802.16e 8.3 MIMO Candidates for IEEE 802.16m 8.4 UL-MIMO Schemes in WiMAX Systems 8.5 Cyclic Delay Diversity (CDD) 8.6 Tile-Switched Diversity (TSD) 8.7 Performance 8.8 Potential Impacts on Architecture 8.9 Conclusions Chapter 9 LTE and LTE-Advanced 9.1 Transmission Structure 9.1.1 LTE Downlink 9.1.2 LTE Uplink 9.2 LTE MIMO Schemes 9.3 LTE-Advanced MIMO Schemes Chapter 10 Multiple Antenna Terminals 10.1 Size-Performance Trade Off 10.2 Performance of Compact Design 10.3 Compact Design Techniques - Antenna Decoupling 10.4 Compact Design Techniques - Antenna/Channel Matching 10.5 Related Issues and Future Outlook 10.6 Conclusions 10.7 Acknowledgment Chapter 11 Conclusion: MIMO Roadmaps 11.1 Systems and Roadmaps 11.2 A Bird's Eye View on Current and Future Prospects for MIMOList of SymbolsList of AcronymsReferencesIndex

Subject Areas: Signal processing [UYS], Network management [UTF], WAP [wireless technology TJKW], Telephone technology [TJKT], Communications engineering / telecommunications [TJK], Electricity, electromagnetism & magnetism [PHK]

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