Bandwidth efficient coding /
This book addresses a new coding solution to the challenge of communicating more bits of information in the same radio spectrum Bandwidth Efficient Coding addresses the major challenge in communication engineering today: how to communicate more bits of information in the same radio spectrum. Energy...
Saved in:
Main Author: | |
---|---|
Format: | Electronic eBook |
Language: | English |
Published: |
Piscataway, NJ :
IEEE Press,
2017.
|
Series: | IEEE series on mobile & digital communication.
|
Subjects: | |
Online Access: | CONNECT |
Table of Contents:
- Preface ix
- 1 Introduction 1
- 1.1 Electrical Communication, 2
- 1.2 Modulation, 4
- 1.3 Time and Bandwidth, 9
- 1.4 Coding Versus Modulation, 13
- 1.5 A Tour of the Book, 14
- 1.6 Conclusions, 15
- 2 Communication Theory Foundation 17
- 2.1 Signal Space, 18
- 2.2 Optimal Detection, 24
- 2.3 Pulse Aliasing, 35
- 2.4 Signal Phases and Channel Models, 37
- 2.5 Error Events, 43
- 2.6 Conclusions, 50
- 3 Gaussian Channel Capacity 58
- 3.1 Classical Channel Capacity, 59
- 3.2 Capacity for an Error Rate and Spectrum, 64
- 3.3 Linear Modulation Capacity, 68
- 3.4 Conclusions, 72
- 4 Faster than Nyquist Signaling 79
- 4.1 Classical FTN, 80
- 4.2 Reduced ISI-BCJR Algorithms, 87
- 4.3 Good Convolutional Codes, 101
- 4.4 Iterative Decoding Results, 110
- 4.5 Conclusions, 114
- 5 Multicarrier FTN 127
- 5.1 Classical Multicarrier FTN, 128
- 5.2 Distances, 134
- 5.3 Alternative Methods and Implementations, 138
- 5.4 Conclusions, 143
- 6 Coded Modulation Performance 145
- 6.1 Set-Partition Coding, 146
- 6.2 Continuous Phase Modulation, 153
- 6.3 Conclusions for Coded Modulation; Highlights, 161
- 7 Optimal Modulation Pulses 163
- 7.1 Slepian's Problem, 164
- 7.2 Said's Optimum Distance Pulses, 177
- 7.3 Conclusions, 185
- Index 190.