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The Resource Channel Coding Techniques for Wireless Communications

Channel Coding Techniques for Wireless Communications

Label
Channel Coding Techniques for Wireless Communications
Title
Channel Coding Techniques for Wireless Communications
Creator
Subject
Language
eng
Cataloging source
MiAaPQ
Literary form
non fiction
Nature of contents
dictionaries
Channel Coding Techniques for Wireless Communications
Label
Channel Coding Techniques for Wireless Communications
Link
http://libproxy.rpi.edu/login?url=https://ebookcentral.proquest.com/lib/rpi/detail.action?docID=3109146
Publication
Copyright
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Related Location
Related Agents
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Carrier category
online resource
Carrier category code
cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
txt
Content type MARC source
rdacontent
Contents
  • Preface -- Contents -- About the Author -- 1 Introduction -- 1.1 Digital Communication System -- 1.2 Wireless Communication Channels -- 1.2.1 Binary Erasure Channel (BEC) -- 1.2.2 Binary Symmetric Channel (BSC) -- 1.2.3 Additive White Gaussian Noise Channel -- 1.2.4 Gilbert--Elliott Channel -- 1.2.5 Fading Channel -- 1.2.6 Fading -- 1.3 Statistical Models for Fading Channels -- 1.3.1 Probability Density Function of Rician Fading Channel -- 1.3.2 Probability Density Function of Rayleigh Fading Channel -- 1.3.3 Probability Density Function of Nakagami Fading Channel -- 1.4 Channel Capacity -- 1.4.1 Channel Capacity of Binary Erasure Channel -- 1.4.2 Channel Capacity of Binary Symmetric Channel -- 1.4.3 Capacity of AWGN Channel -- 1.4.4 Channel Capacity of Gilbert--Elliott Channels -- 1.4.5 Ergodic Capacity of Fading Channels -- 1.4.6 Outage Probability of a Fading Channel -- 1.4.7 Outage Capacity of Fading Channels -- 1.4.8 Capacity of Fading Channels with CSI at the Transmitter and Receiver -- 1.5 Channel Coding for Improving the Performance of Communication System -- 1.5.1 Shannon's Noisy Channel Coding Theorem -- 1.5.2 Channel Coding Principle -- 1.5.3 Channel Coding Gain -- 1.6 Some Application Examples of Channel Coding -- 1.6.1 Error Correction Coding in GSM -- 1.6.2 Error Correction Coding in W-CDMA -- 1.6.3 Digital Video Broadcasting Channel Coding -- 1.6.4 Error Correction Coding in GPS L5 Signal -- References -- 2 Performance of Digital Communication Over Fading Channels -- 2.1 BER Performance of Different Modulation Schemes in AWGN, Rayleigh, and Rician Fading Channels -- 2.1.1 BER of BPSK Modulation in AWGN Channel -- 2.1.2 BER of BPSK Modulation in Rayleigh Fading Channel -- 2.1.3 BER of BPSK Modulation in Rician Fading Channel -- 2.1.4 BER Performance of BFSK in AWGN, Rayleigh, and Rician Fading Channels
  • 2.1.5 Comparison of BER Performance of BPSK, QPSK, and 16-QAM in AWGN and Rayleigh Fading Channels -- 2.2 Wireless Communication Techniques -- 2.2.1 DS-CDMA -- 2.2.1.1 BER Performance of DS-CDMA in AWGN and Rayleigh Fading Channels -- 2.2.2 FH-CDMA -- 2.2.2.1 BER Expression for Synchronous SFH-CDMA -- 2.2.3 OFDM -- 2.2.4 MC-CDMA -- 2.2.4.1 BER Expression for Synchronous MC-CDMA -- 2.3 Diversity Reception -- 2.3.1 Receive Diversity with N Receive Antennas in AWGN -- 2.4 Diversity Combining Techniques -- 2.4.1 Selection Diversity -- 2.4.1.1 Expression for BER with Selection Diversity -- 2.4.2 Equal Gain Combining (EGC) -- 2.4.2.1 Expression for BER with Equal Gain Combining -- 2.4.3 Maximum Ratio Combining (MRC) -- 2.4.3.1 Expression for BER with Maximal Ratio Combining (MRC) -- 2.5 Problems -- 2.6 MATLAB Exercises -- References -- 3 Galois Field Theory -- 3.1 Set -- 3.2 Group -- 3.3 Field -- 3.4 Vector Spaces -- 3.5 Elementary Properties of Galois Fields -- 3.6 Galois Field Arithmetic -- 3.6.1 Addition and Subtraction of Polynomials -- 3.6.2 Multiplication of Polynomials -- 3.6.3 Multiplication of Polynomials Using MATLAB -- 3.6.4 Division of Polynomials -- 3.6.5 Division of Polynomials Using MATLAB -- 3.7 Polynomials Over Galois Fields -- 3.7.1 Irreducible Polynomial -- 3.7.2 Primitive Polynomials -- 3.7.3 Checking of Polynomials for Primitiveness Using MATLAB -- 3.7.4 Generation of Primitive Polynomials Using MATLAB -- 3.8 Construction of Galois Field GF(2m) from GF(2) -- 3.8.1 Construction of GF(2m), Using MATLAB -- 3.9 Minimal Polynomials and Conjugacy Classes of GF(2m) -- 3.9.1 Minimal Polynomials -- 3.9.2 Conjugates of GF Elements -- 3.9.3 Properties of Minimal Polynomial -- 3.9.4 Construction of Minimal Polynomials -- 3.9.5 Construction of Conjugacy Classes Using MATLAB -- 3.9.6 Construction of Minimal Polynomials Using MATLAB -- 3.10 Problems
  • 4 Linear Block Codes -- 4.1 Block Codes -- 4.2 Linear Block Codes -- 4.2.1 Linear Block Code Properties -- 4.2.2 Generator and Parity Check Matrices -- 4.2.3 Weight Distribution of Linear Block Codes -- 4.2.4 Hamming Codes -- 4.2.5 Syndrome Table Decoding -- 4.2.5.1 Hamming Codes Decoding -- 4.3 Cyclic Codes -- 4.3.1 The Basic Properties of Cyclic Codes -- 4.3.2 Encoding Algorithm for an ({\varvec n},{\varvec k}) Cyclic Codes -- 4.3.3 Encoder for Cyclic Codes Using Shift Registers -- 4.3.4 Shift Register Encoders for Cyclic Codes -- 4.3.5 Cyclic Redundancy Check Codes -- 4.4 BCH Codes -- 4.4.1 BCH Code Design -- 4.4.2 Berlekamp's Algorithm for Binary BCH Codes Decoding -- 4.4.3 Chien Search Algorithm -- 4.5 Reed--Solomon Codes -- 4.5.1 Reed--Solomon Encoder -- 4.5.2 Decoding of Reed--Solomon Codes -- 4.5.3 Binary Erasure Decoding -- 4.5.4 Non-binary Erasure Decoding -- 4.6 Performance Analysis of RS Codes -- 4.6.1 BER Performance of RS Codes for BPSK Modulation in AWGN and Rayleigh Fading Channels -- 4.6.2 BER Performance of RS Codes for Non-coherent BFSK Modulation in AWGN and Rayleigh Fading Channels -- 4.7 Problems -- 4.8 MATLAB Exercises -- References -- 5 Convolutional Codes -- 5.1 Structure of Non-systematic Convolutional Encoder -- 5.1.1 Impulse Response of Convolutional Codes -- 5.1.2 Constraint Length -- 5.1.3 Convolutional Encoding Using MATLAB -- 5.2 Structure of Systematic Convolutional Encoder -- 5.3 The Structural Properties of Convolutional Codes -- 5.3.1 State Diagram -- 5.3.2 Catastrophic Convolutional Codes -- 5.3.3 Transfer Function of a Convolutional Encoder -- 5.3.4 Distance Properties of Convolutional Codes -- 5.3.5 Trellis Diagram -- 5.4 Punctured Convolutional Codes -- 5.5 The Viterbi Decoding Algorithm -- 5.5.1 Hard-decision Decoding -- 5.5.2 Soft-decision Decoding -- 5.6 Performance Analysis of Convolutional Codes
  • 5.6.1 Binary Symmetric Channel -- 5.6.2 AWGN Channel -- 5.6.3 Rayleigh Fading Channel -- 5.7 Problems -- 5.8 MATLAB Exercises -- References -- 6 Turbo Codes -- 6.1 Non-recursive and Recursive Systematic Convolutional Encoders -- 6.1.1 Recursive Systematic Convolutional (RSC) Encoder -- 6.2 Turbo Encoder -- 6.2.1 Different Types of Interleavers -- 6.2.2 Turbo Coding Illustration -- 6.2.3 Turbo Coding Using MATLAB -- 6.3 Turbo Decoder -- 6.3.1 The BCJR Algorithm -- 6.3.2 Turbo Decoding Illustration -- 6.3.2.1 Turbo Decoding Using MATLAB -- 6.3.3 Convergence Behavior of the Turbo Codes -- 6.3.4 EXIT Analysis of Turbo Codes -- 6.4 Performance Analysis of the Turbo Codes -- 6.4.1 Upper Bound for the Turbo Codes in AWGN Channel -- 6.4.2 Upper Bound for Turbo Codes in Rayleigh Fading Channel -- 6.4.3 Effect of Free Distance on the Performance of the Turbo Codes -- 6.4.4 Effect of Number of Iterations on the Performance of the Turbo Codes -- 6.4.5 Effect of Puncturing on the Performance of the Turbo Codes -- 6.5 Problems -- 6.6 MATLAB Exercises -- References -- 7 Bandwidth Efficient Coded Modulation -- 7.1 Set Partitioning -- 7.2 Design of the TCM Scheme -- 7.3 Decoding TCM -- 7.4 TCM Performance Analysis -- 7.4.1 Asymptotic Coding Gain -- 7.4.2 Bit Error Rate -- 7.4.3 Simulation of the BER Performance of a 8-State 8-PSK TCM in the AWGN and Rayleigh Fading Channels Using MATLAB -- 7.5 Turbo Trellis Coded Modulation (TTCM) -- 7.5.1 TTCM Encoder -- 7.5.2 TTCM Decoder -- 7.5.3 Simulation of the BER Performance of the 8-State 8-PSK TTCM in AWGN and Rayleigh Fading Channels -- 7.6 Bit-interleaved Coded Modulation -- 7.6.1 BICM Encoder -- 7.6.2 BICM Decoder -- 7.7 Bit-interleaved Coded Modulation Using Iterative Decoding -- 7.7.1 BICM-ID Encoder and Decoder
  • 7.7.2 Simulation of the BER Performance of 8-State 8-PSK BICM and BICM-ID in AWGN and Rayleigh Fading Channels -- 7.8 Problems -- A.0. Appendix A -- References -- 8 Low Density Parity Check Codes -- 8.1 LDPC Code Properties -- 8.2 Construction of Parity Check Matrix H -- 8.2.1 Gallager Method for Random Construction of {H} for Regular Codes -- 8.2.2 Algebraic Construction of {H} for Regular Codes -- 8.2.3 Random Construction of {H} for Irregular Codes -- 8.3 Representation of Parity Check Matrix Using Tanner Graphs -- 8.3.1 Cycles of Tanner Graph -- 8.3.2 Detection and Removal of Girth 4 of a Parity Check Matrix -- 8.4 LDPC Encoding -- 8.4.1 Preprocessing Method -- 8.5 Efficient Encoding of LDPC Codes -- 8.5.1 Efficient Encoding of LDPC Codes Using MATLAB -- 8.6 LDPC Decoding -- 8.6.1 LDPC Decoding on Binary Erasure Channel Using Message-Passing Algorithm -- 8.6.2 LDPC Decoding on Binary Erasure Channel Using MATLAB -- 8.6.3 Bit-Flipping Decoding Algorithm -- 8.6.4 Bit-Flipping Decoding Using MATLAB -- 8.7 Sum--Product Decoding -- 8.7.1 Log Domain Sum--Product Algorithm (SPA) -- 8.7.2 The Min-Sum Algorithm -- 8.7.3 Sum--Product and Min-Sum Algorithms for Decoding of Rate 1/2 LDPC Codes Using MATLAB -- 8.8 EXIT Analysis of LDPC Codes -- 8.8.1 Degree Distribution -- 8.8.2 Ensemble Decoding Thresholds -- 8.8.3 EXIT Charts for Irregular LDPC Codes in Binary Input AWGN Channels -- 8.9 Performance Analysis of LDPC Codes -- 8.9.1 Performance Comparison of Sum--Product and Min-Sum Algorithms for Decoding of Regular LDPC Codes in AWGN Channel -- 8.9.2 BER Performance Comparison of Regular and Irregular LDPC Codes in AWGN Channel -- 8.9.3 Effect of Block Length on the BER Performance of LDPC Codes in AWGN Channel -- 8.9.4 Error Floor Comparison of Irregular LDPC Codes of Different Degree Distribution in AWGN Channel -- 8.10 Problems -- 8.11 MATLAB Exercises
  • References
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1 online resource (407 pages)
Form of item
online
Isbn
9788132222927
Media category
computer
Media MARC source
rdamedia
Media type code
c
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unknown sound
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remote

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