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Tables of Contents for Coded Modulation Systems
Chapter/Section Title
Page #
Page Count
Introduction to Coded Modulation
1
16
Some Digital Communication Concepts
1
7
A Brief History
8
3
Classes of Coded Modulation
11
2
The Plan of the Book
13
4
Bibliography
15
2
Modulation Theory
17
58
Introduction
17
2
Baseband Pulses
19
7
Nyquist Pulses
19
3
Orthogonal Pulses
22
2
Eye Patterns and Intersymbol Interference
24
2
Signal Space Analysis
26
8
The Maximum Likelihood Receiver and Signal Space
26
3
AWGN Error Probability
29
5
Basic Receivers
34
3
Carrier Modulation
37
15
Quadrature Modulation -- PSK
38
9
Quadrature Modulation -- QAM
47
2
Non-quadrature Modulation -- FSK and CPM
49
3
Synchronization
52
6
Phase-lock Loops
53
3
Synchronizer Circuits
56
2
Spectra
58
7
Linear Modulation Spectra
58
3
The General Spectrum Problem
61
4
Discrete-time Channel Models
65
7
Models for Orthogonal Pulse Modulation
66
2
Models for Non-orthogonal Pulse Signaling: ISI
68
4
Problems
72
3
Bibliography
73
2
Coding and Information Theory
75
58
Introduction
75
1
Parity-check Codes
76
8
Parity-check Basics
76
4
BCH and Reed-Solomon Codes
80
2
Decoding Performance and Coding Gain
82
2
Trellis Codes
84
11
Convolutional Codes
85
5
Code Trellises
90
5
Decoding
95
11
Trellis Decoders and the Viterbi Algorithm
95
6
Iterative Decoding and the BCJR Algorithm
101
5
The Shannon Theory of Channels
106
4
Capacity, Cut-off Rate, and Error Exponent
110
19
Channel Capacity
110
7
Capacity for Channels with Defined Bandwidth
117
4
Capacity of Gaussian Channels Incorporating a Linear Filter
121
5
Cut-off Rate and Error Exponent
126
3
Problems
129
4
Bibliography
130
3
Set-partition Coding
133
58
Introduction
133
3
Basics of Set Partitioning
136
14
An Introductory Example
137
2
Constellation and Subset Design
139
11
Set-partition Codes Based on Convolutional Codes
150
21
Standard TCM Schemes
150
7
Rotational Invariance
157
8
Error Estimates, Viterbi Decoding, and the Free Distance Calculation
165
6
Lattice Codes
171
11
Lattice Ideas
172
3
Improved Lattices in Two or More Dimensions
175
4
Set-partition Codes Based on Multidimensional Lattices
179
3
QAM-like Codes Without Set Partitioning
182
4
Problems
186
5
Bibliography
188
3
Continuous-phase Modulation Coding
191
92
Introduction
191
6
CPM Distances
197
28
Bounds on Minimum Euclidean Distance
197
16
Calculation of Minimum Euclidean Distance
213
7
Trellis Structure and Error Estimates
220
5
CPM Spectra
225
19
A General Numerical Spectral Calculation
226
6
Some Numerical Results
232
8
Energy-Bandwidth Performance
240
4
Receivers and Transmitters
244
24
Optimal Coherent Receivers
246
5
Partially Coherent and Noncoherent Receivers
251
10
CPM Phase Synchronization
261
5
Transmitters
266
2
Simplified Receivers
268
9
Pulse Simplification at the Receiver
269
3
The Average-matched Filter Receiver
272
1
Reduced-search Receivers via the M-algorithm
273
2
MSK-type Receivers
275
2
Problems
277
6
Bibliography
279
4
PRS Coded Modulation
283
80
Introduction
283
1
Modeling and MLSE for ISI and Linear Coded Modulation
284
9
A Modeling Framework for PRS Coding and ISI
285
4
Maximum Likelihood Reception and Minimum Distance
289
4
Distance and Spectrum in PRS Codes
293
16
Basic PRS Transforms
294
4
Autocorrelation and Euclidean Distance
298
5
Bandwidth and Autocorrelation
303
6
Optimal PRS Codes
309
10
Coded Modulation by Outright Filtering
319
14
Faster-than-Nyquist Signaling
320
1
Euclidean Distance of Filtered CPM Signals
321
5
Critical Difference Sequences at Narrow Bandwidth
326
3
Simple Modulation Plus Severe Filtering
329
4
PRS Receivers
333
15
Review of Equalizers
333
5
Reduced-search Trellis Decoders
338
7
Breadth-first Decoding with Infinite Response Codes
345
3
Problems
348
15
Bibliography
350
1
Appendix 6A Tables of Optimal PRS Codes
351
7
Appendix 6B Said's Solution for Optimal Codes
358
5
Introduction to Fading Channels
363
52
Introduction
363
1
Propagation Path Loss
364
4
Free Space Path Loss
364
1
Plane Earth Path Loss
365
1
General Path Loss Model
366
2
Fading Distributions
368
7
Shadow Fading Distribution
369
1
Multipath Fading Distribution
370
2
Other Fading Distributions
372
3
Frequency Selective Fading
375
11
Doppler Frequency
375
1
Delay Spread
376
3
Coherence Bandwidth and Coherence Time
379
4
Fading Spectrum
383
2
Types of Multipath Fading
385
1
Fading Simulators
386
10
Flat Rayleigh Fading by the Filtering Method
387
4
Other Methods for Generating a Rayleigh Fading Process
391
2
Fading with Other Distributions
393
2
Frequency Selective Fading
395
1
Behavior of Modulation Under Fading
396
4
Interleaving and Diversity
400
15
Diversity Combining
400
8
Ways to Obtain Diversity
408
4
Bibliography
412
3
Trellis Coding on Fading Channels
415
60
Introduction
415
1
Optimum Distance Spectrum Feed-forward Convolutional Codes
416
3
Rate Compatible Convolutional (RCC) Codes
419
5
Rate Compatible Punctured Convolutional Codes
420
2
Rate Compatible Repetition Convolutional Codes
422
1
Rate Compatible Nested Convolutional Codes
423
1
Rate Matching
424
2
TCM on Fading Channels
426
9
Performance of TCM on Fading Channels
427
4
Design of TCM on Fading Channels
431
4
DSSS and CDMA
435
19
DSSS
435
4
Direct-Sequence CDMA
439
2
Code Design
441
8
Multiuser Detection in CS-CDMA
449
5
Final Remark on SS and CDMA
454
1
Generalized Hybrid ARQ
454
21
Simple ARQ
454
4
Hybrid Type-I ARQ
458
3
Hybrid Type-II ARQ
461
7
Hybrid Type-II ARQ with Adaptive Modulation
468
2
Bibliography
470
5
Index
475