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Space Modulation Techniques

Space Modulation Techniques

Publisher Blackwell Science
Year 01/06/2018
Edition First
Pages 288
Version hardback
Readership level Professional and scholarly
Language English
ISBN 9781119375654
Categories Communications engineering / telecommunications
$129.23 (with VAT)
502.58 PLN / €115.63 / £107.10
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Book description

Explores the fundamentals required to understand, analyze, and implement space modulation techniques (SMTs) in coherent and non-coherent radio frequency environments This book focuses on the concept of space modulation techniques (SMTs), and covers those emerging high data rate wireless communication techniques. The book discusses the advantages and disadvantages of SMTs along with their performance. A general framework for analyzing the performance of SMTs is provided and used to detail their performance over several generalized fading channels. The book also addresses the transmitter design of these techniques with the optimum number of hardware components and the use of these techniques in cooperative and mm-Wave communications. Beginning with an introduction to the subject and a brief history, Space Modulation Techniques goes on to offer chapters covering MIMO systems like spatial multiplexing and space-time coding. It then looks at channel models, such as Rayleigh, Rician, Nakagami-m, and other generalized distributions. A discussion of SMTs includes techniques like space shift keying (SSK), space-time shift keying (STSK), trellis coded spatial modulation (TCSM), spatial modulation (SM), generalized spatial modulation (GSM), quadrature spatial modulation (QSM), and more. The book also presents a non-coherent design for different SMTs, and a framework for SMTs' performance analysis in different channel conditions and in the presence of channel imperfections, all that along with an information theoretic treatment of SMTs. Lastly, it provides performance comparisons, results, and MATLAB codes and offers readers practical implementation designs for SMTs. The book also: Provides readers with the expertise of the inventors of space modulation techniques (SMTs) Analyzes error performance, capacity performance, and system complexity. Discusses practical implementation of SMTs and studies SMTs with cooperative and mm-Wave communications Explores and compares MIMO schemes Space Modulation Techniques is an ideal book for professional and academic readers that are active in the field of SMT MIMO systems.

Space Modulation Techniques


Preface xiii

1 Introduction 1

1.1 Wireless History 1

1.2 MIMO Promise 2

1.3 Introducing Space Modulation Techniques (SMTs) 3

1.4 Advanced SMTs 4

1.4.1 Space-Time Shift Keying (STSK) 4

1.4.2 Index Modulation (IM) 4

1.4.3 Differential SMTs 5

1.4.4 OpticalWireless SMTs 6

1.5 Book Organization 6

2 MIMO System and ChannelModels 9

2.1 MIMO System Model 9

2.2 SpatialMultiplexing MIMO Systems 11

2.3 MIMO Capacity 11

2.4 MIMO ChannelModels 13

2.4.1 Rayleigh Fading 15

2.4.2 Nakagami-n (Rician Fading) 15

2.4.3 Nakagami-m Fading 16

2.4.4 The ?-? MIMO Channel 17

2.4.5 The ?-? Distribution 20

2.4.6 The ?-? Distribution 23

2.5 Channel Imperfections 26

2.5.1 Spatial Correlation 26 Simulating SC Matrix 29 Effect of SC on MIMO Capacity 31

2.5.2 Mutual Coupling 31 Effect of MC on MIMO Capacity 33

2.5.3 Channel Estimation Errors 34 Impact of Channel Estimation Error on the MIMO Capacity 34

3 SpaceModulation Transmission and Reception Techniques 35

3.1 Space Shift Keying (SSK) 36

3.2 Generalized Space Shift Keying (GSSK) 39

3.3 SpatialModulation (SM) 41

3.4 Generalized SpatialModulation (GSM) 44

3.5 Quadrature Space Shift Keying (QSSK) 45

3.6 Quadrature SpatialModulation (QSM) 48

3.7 Generalized QSSK (GQSSK) 53

3.8 Generalized QSM (GQSM) 55

3.9 Advanced SMTs 55

3.9.1 Differential Space Shift Keying (DSSK) 55

3.9.2 Differential SpatialModulation (DSM) 60

3.9.3 Differential Quadrature SpatialModulation (DQSM) 60

3.9.4 Space-Time Shift Keying (STSK) 65

3.9.5 Trellis Coded-Spatial Modulation (TCSM) 66

3.10 Complexity Analysis of SMTs 69

3.10.1 Computational Complexity of the ML Decoder 69

3.10.2 Low-Complexity Sphere Decoder Receiver for SMTs 70 SMT-Rx Detector 70 SMT-Tx Detector 71 Single Spatial Symbol SMTs (SS-SMTs) 71 Double Spatial Symbols SMTs (DS-SMTs) 72 Computational Complexity 73 Error Probability Analysis and Initial Radius 74

3.11 Transmitter Power Consumption Analysis 75

3.11.1 Power Consumption Comparison 77

3.12 Hardware Cost 80

3.12.1 Hardware Cost Comparison 81

3.13 SMTs Coherent and Noncoherent Spectral Efficiencies 82

4 Average Bit Error Probability Analysis for SMTs 85

4.1 Average Error Probability over Rayleigh Fading Channels 85

4.1.1 SM and SSK with Perfect Channel Knowledge at the Receiver 85 Single Receive Antenna (Nr = 1) 86 Arbitrary Number of Receive Antennas (Nr) 88 Asymptotic

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