SC-Fdma for Mobile Communications (Hardcover)

Introduction
Motivations for Single-Carrier Frequency Division Multiple Access
Evolution of Cellular Wireless Communications
Mobile Radio Channel
     Slow and Fast Fading 
     Frequency-Flat and Frequency-Selective Fading
     Channel Equalization
Multicarrier Communication Systems 
     OFDM System 
     OFDMA System 1
     Multicarrier CDMA System 1
Single-Carrier Communication Systems 
     SC-FDE System 
     DFT-SC-FDMA System

DFT-SC-FDMA System
Introduction
Subcarrier Mapping Methods
DFT-SC-FDMA System Model
Time-Domain Symbols of the DFT-SC-FDMA System 
     Time-Domain Symbols of the DFT-IFDMA System
     Time-Domain Symbols of the DFT-LFDMA System
OFDMA vs. DFT-SC-FDMA
Power Amplifier
Peak Power Problem 
     Sensitivity to Nonlinear Amplification
     Sensitivity to A/D and D/A Resolutions 
     Peak-to-Average Power Ratio
Pulse-Shaping Filters
Simulation Examples 
     Simulation Parameters 
     CCDF Performance 
     Impact of the Input Block Size 
     Impact of the Output Block Size 
     Impact of the Power Amplifier

DCT-SC-FDMA System
Introduction
DCT 
     Definition of the DCT 
     Energy Compaction Property of the DCT
DCT-SC-FDMA System Model
Complexity Evaluation
Time-Domain Symbols of the DCT-SC-FDMA System 
     Time-Domain Symbols of the DCT-IFDMA System 
     Time-Domain Symbols of the DCT-LFDMA System
Simulation Examples 
     Simulation Parameters 
     BER Performance 
     CCDF Performance 
     Impact of the Input Block Size 
     Impact of the Output Block Size 
     Impact of the Power Amplifier

Transceiver Schemes for SC-FDMA Systems
Introduction 
     PAPR Reduction Methods 
     Clipping Method 
     Companding Method 
     Hybrid Clipping and Companding
Discrete Wavelet Transform 
     Implementation of the DWT 
     Haar Wavelet Transform
Wavelet-based Transceiver Scheme 
     Mathematical Model 
     Two-Level Decomposition 
     Complexity Evaluation
Simulation Examples
     Simulation Parameters 
     Results of the DFT-SC-FDMA System
     Results of the DCT-SC-FDMA System

Carrier Frequency Offsets in SC-FDMA Systems
Introduction
System Models in the Presence of CFOs 
     DFT-SC-FDMA System Model 
     DCT-SC-FDMA System Model
Conventional CFOs Compensation Schemes 
     Single-User Detector 
     Circular-Convolution Detector
MMSE Scheme 
     Mathematical Model 
     Banded-System Implementation 
     Complexity Evaluation
MMSE+PIC Scheme 
     Mathematical Model
Simulation Examples 
     Simulation Parameters 
     Impact of the CFOs 
     Results of the MMSE Scheme 
          DFT-SC-FDMA System
          DCT-SC-FDMA System 
     Results of the MMSE+PIC Scheme 
          DFT-SC-FDMA System 
          DCT-SC-FDMA System 
     Impact of Estimation Errors 
          DFT-SC-FDMA System 
          DCT-SC-FDMA System

Equalization and CFOs Compensation for MIMO SC-FDMA Systems
Introduction
MIMO System Models in the Absence of CFOs 
     SM DFT-SC-FDMA System Model
     SFBC DFT-SC-FDMA System Model
     SFBC DCT-SC-FDMA System Model 
     SM DCT-SC-FDMA System Model
MIMO Equalization Schemes
     MIMO ZF Equalization Scheme
     MIMO MMSE Equalization Scheme
LRZF Equalization Scheme 
     Mathematical Model 
     Complexity Evaluation 
          DFT-SC-FDMA System 
          DCT-SC-FDMA System
MIMO System Models in the Presence of CFOs 
     System Model 
     Signal-to-Interference Ratio
Joint Equalization and CFOs Compensation Schemes 
     JLRZF Equalization Scheme 
     JMMSE Equalization Scheme 
     Complexity Evaluation
Simulation Examples 
     Simulation Parameters 
     Absence of CFOs 
          Results of the LRZF
Equalization Scheme 
          Impact of Estimation Errors
     Presence of CFOs 
          Results of the JLRZF
Equalization Scheme 
          Results of the JMMSE
Equalization Scheme 
          Impact of Estimation Errors

Fundamentals of Cooperative Communications
Introduction
Diversity Techniques and MIMO Systems 
     Diversity Techniques 
     Multiple-Antenna Systems
Classical Relay Channel
Cooperative Communication
Cooperative Diversity Protocols 
     Direct Transmission 
     Amplify and Forward 
     Fixed Decode and Forward 
     Selection Decode and Forward 
     Compress and Forward
Cooperative Diversity Techniques 
     Cooperative Diversity Based on Repetition Coding 
     Cooperative Diversity Based on Space?Time Coding
     Cooperative Diversity Based on Relay Selection 
     Cooperative Diversity Based on Channel Coding

Cooperative Space?Time /Frequency Coding Schemes for SC-FDMA Systems
SC-FDMA System Model 
     SISO SC-FDMA System Model 
     MIMO SC-FDMA System Model
Cooperative Space?Frequency Coding for SC-FDMA System 
     Motivation and Cooperation Strategy 
     Cooperative Space?Frequency Code for SC-FDMA with the DF Protocol 
          Peak-to-Average Power Ratio
Cooperative Space?Time Code for SC-FDMA
Simulation Examples

Relaying Techniques for Improving the Physical Layer Security
System and Channel Models
Relay and Jammers Selection Schemes 
     Selection Schemes with Noncooperative Eavesdroppers 
          Noncooperative Eavesdroppers without Jamming (NC) 
          Noncooperative Eavesdroppers with Jamming (NCJ) 
          Noncooperative Eavesdroppers with Controlled Jamming (NCCJ)
     Selection Schemes with Cooperative Eavesdroppers 
          Cooperative Eavesdroppers without Jamming (Cw/oJ)
          Cooperative Eavesdroppers with Jamming (CJ) 
          Cooperative Eavesdroppers with Controlled Jamming (CCJ)
Simulation Examples

Appendix A: Channel Models
Appendix B: Derivation of the Interference Coefficients for the DFT-SC-FDMA System over an AWGN Channel
Appendix C: Derivation of the Interference Coefficients for the DCT -SC -FDMA System over an AWGN Channel
Appendix D: Derivation of the Optimum Solution of the JLRZF Scheme in Chapter 6
Appendix E: Derivations for Chapter 9
Appendix F: MATLAB^® Simulation Codes for Chapters 2 through 6
Appendix G: MATLAB^® Simulation Codes for Chapters 7 through 9