Digital Communications 1
ISTE Ltd and John Wiley & Sons Inc (Verlag)
978-1-84821-845-1 (ISBN)
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In this first volume, after having presented the base of the information theory, we will study the source coding techniques with and without loss. Then we analyze the correcting codes for block errors, convutional and concatenated used in current systems.
Didier Le Ruyet received his Eng. Degree and his Ph. D. degree from Conservatoire National des Arts et Métiers (CNAM) in 1994 and 2001 respectively. In 2009, he received the “Habilitation à diriger des recherches” from Paris XIII University. He is full professor at CNAM since 2010 and deputy director of the center for research in Computer Science and Telecommunications (CEDRIC). He has published about 100 papers in refereed journals and conference proceedings. His main research and teaching activities lie in the areas of digital communication, wireless communication and signal processing including channel coding and multi-antenna transmission. Mylène Pischella received her engineering degree and her phD in electronics and telecommunications from Télécom ParisTech. She is an associate professor at Conservatoire National des Arts et Métiers (CNAM), where she is responsible of courses on digital communications, wireless communications and information theory.
Preface xiii List of Acronyms xv
Notations xix
Introduction xxiii
Chapter 1 Introduction to Information Theory 1
1.1 Introduction 1
1.2 Review of probabilities 2
1.3 Entropy and mutual information 7
1.4 Lossless source coding theorems 20
1.5 Theorem for lossy source coding 30
1.6 Transmission channel models 34
1.7 Capacity of a transmission channel 40
1.8 Exercises 54
Chapter 2 Source Coding 57
2.1 Introduction 57
2.2 Algorithms for lossless source coding 58
2.3 Sampling and quantization 69
2.4 Coding techniques for analog sources with memory 87
2.5 Application to the image and sound compression 101
2.6 Exercises 116
Chapter 3 Linear Block Codes 121
3.1 Introduction 121
3.2 Finite fields 122
3.3 Linear block codes 127
3.4 Decoding of binary linear block codes 152
3.5 Performance of linear block codes 172
3.6 Cyclic codes 182
3.7 Applications 214
3.8 Exercises 216
Chapter 4 Convolutional Codes 229
4.1 Introduction 229
4.2 Mathematical representations and hardware structures 229
4.3 Graphical representation of the convolutional codes 238
4.4 Free distance and transfer function of convolutional codes 242
4.5 Viterbi's algorithm for the decoding of convolutional codes 246
4.6 Punctured convolutional codes 249
4.7 Applications 249
4.8 Exercises 250
Chapter 5 Concatenated Codes and Iterative Decoding 253
5.1 Introduction 253
5.2 Soft input soft output decoding 254
5.3 LDPC codes 288
5.4 Parallel concatenated convolutional codes or turbo codes 306
5.5 Other classes of concatenated codes 330
5.6 Exercises 335
Appendices 339
Appendix A 341
Appendix B 343
Bibliography 345
Index 353
Summary of Volume 2 355
Verlagsort | London |
---|---|
Sprache | englisch |
Maße | 165 x 242 mm |
Gewicht | 726 g |
Themenwelt | Technik ► Elektrotechnik / Energietechnik |
Technik ► Nachrichtentechnik | |
ISBN-10 | 1-84821-845-1 / 1848218451 |
ISBN-13 | 978-1-84821-845-1 / 9781848218451 |
Zustand | Neuware |
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