E-raamat: Modulated Coding for Intersymbol Interference Channels

Series Introduction v K. J. Ray Liu Preface vii Introduction 1(8) Post Equalizations 2(1) Transmitter Assisted Equalizations 2(3) TH Precoding 3(1) Modulated Coding and Vector Coding 4(1) Information Rates and Capacity of an ISI Channel with AWGN 5(2) Some Notations 7(2) Modulated Codes: Fundamentals and Coding Gain 9(40) Modulated Codes 9(2) Coding Gain in AWGN Channel 11(2) MC Combined with an ISI Channel 13(7) Coding Gain in ISI Channels 20(6) More Results on Coding Gain 26(23) Existence of Rate 2/Λ MC with Coding Gain 26(7) Some Sufficient Conditions on the Existence of Higher Rate Block MC with Coding Gain 33(6) A Method on the Rate Estimation of MC with Coding Gain 39(5) Lower and Upper Bounds on the Coding Gain 44(5) Joint Maximum-Likelihood Encoding and Decoding 49(22) Performance Analysis of MC 49(3) A Method for Computing the Distance Spectrum of Modulated Codes 52(9) Error-Pattern Trellis 53(4) Distance Spectrum and Bidirectional Searching Algoirithm 57(4) Simulation Examples 61(5) An Algorithm for Searching the Optimal MC Given an ISI Channel 66(5) Modulated Code Coded Decision Feedback Equalizer 71(40) MC Coded Zero-Forcing DFE 71(14) Performance Analysis 73(3) The Optimal MC Design 76(2) Some Simulation Results 78(7) MC Coded Minimum Mean Square Error DFE 85(9) Optimal Decision-Delay and Coefficients of an MC Coded MMSE-DFE 85(5) Optimal Block MC for MC Coded MMSE-DFE 90(1) Simulation Results 90(4) An Optimal MC Design Converting ISI Channel into ISI-Free Channel 94(17) An Optimal Modulated Code Design 95(3) A Sub-optimal Modulated Code Design 98(4) Delayed Design 102(1) Some Simulation Results 102(9) Capacity and Information Rates for Modulated Code Coded Intersymbol Interference Channels 111(18) Some Lower Bounds of Capacity and Information Rates 112(2) MC Existence with Increased Information Rates 114(5) Numerical Results 119(3) Combined Turbo and MC Coding 122(7) Joint Turbo and Modulated Code Encoding 123(1) Joint Soft Turbo and MC Decoding 123(2) Simulation Results 125(4) Space-Time Modulated Coding for Memory Channels 129(24) Channel Model and Space-Time MC 130(2) Space-Time MC Coded ZF-DFE 132(8) MC Coded ZF-DFE and Performance Analysis 132(5) The Optimal Space-Time MC Design 137(3) Capacity and Information Rates of the Space-Time MC Coded MIMO Systems 140(8) Capacity and Information Rates of MIMO Systems without MC Encoding 140(1) Capacity and Information Rates of the Space-Time MC Coded MIMO Systems 141(7) Numerical Results 148(5) Modulated Code Coded Orthogonal Frequency Division Multiplexing Systems 153(32) OFDM Systems for ISI Channels 154(3) General MC Coded OFDM Systems for ISI Channels 157(6) Channel Independent MC Coded OFDM System for ISI Channels 163(9) A Special MC 163(2) An Example 165(2) Performance Analysis of MC Coded OFDM Systems for ISI Channels 167(2) Vector OFDM Systems 169(1) Numerical Results 170(2) Channel Independent MC Coded OFDM System for Frequency-Selective Fading Channels 172(13) Performance Analysis 173(4) Simulation Results 177(8) Polynomial Ambiguity Resistant Modulated Codes for Blind ISI Mitigation 185(28) PARMC: Definitions 187(1) Basic Properties and a Family of PARMC 188(6) Applications in Blind Identification 194(6) Blind Identifiability 194(3) An Algebraic Blind Identification Algorithm 197(3) Applications in Communication Systems 200(8) Applications in Single-Receiver, Baud-Rate Sampled Systems 201(2) Applications in Undersampled Antenna Array Receiver Systems 203(5) Numerical Examples 208(5) Single Antenna Receiver with Baud Sampling Rate 208(3) Undersampled Antenna Array Receivers 211(2) Characterization and Construction of Polynomial Ambiguity Resistant Modulated Codes 213(18) PAR-Equivalence and Canonical Forms for Irreducible Polynomial Matrices 213(6) (Strong) rth PARMC with N > K 219(5) (Strong) rth PARMC with N = K + 1 224(7) An Optimal Polynomial Ambiguity Resistant Modulated Code Design 231(12) A Criterion for PARMC Design 231(5) Optimal Systematic PARMC 236(2) Numerical Examples 238(5) Conclusions and Some Open Problems 243(4) A Some Fundamentals on Multirate Filterbank Theory 247(20) A.1 A Some Basic Building Blocks 247(4) A.1.1 Decimator and Expander 248(1) A.1.2 Noble Identities 249(1) A.1.3 Polyphase Representations 250(1) A.2 M-Channel Multirate Filterbanks 251(6) A.2.1 Maximally Decimated Multirate Filterbanks: Perfect Reconstruction and Aliasing Component Matrix 252(2) A.2.2 Maximally Decimated Multirate Filterbanks: Perfect Reconstruction and Polyphase Matrix 254(3) A.3 Perfect Reconstruction FIR Multirate Filterbank Factorization and Construction 257(6) A.3.1 Factorization of FIR Polyphase Matrices with FIR Inverses 257(3) A.3.2 Factorization of Paraunitary FIR Matrix Polynomials 260(2) A.3.3 Perfect Reconstruction Multirate Filterbank Design 262(1) A.4 DFT and Cosine Modulated Filterbanks 263(4) A.4.1 DFT Filterbanks 263(2) A.4.2 Cosine Modulated Filterbanks 265(2) Bibliography 267(18) Index 285

Xiang-Gen Xia