Network Information Theory (Hardcover)

Professor Abbas El Gamal, Young-Han Kim

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This comprehensive treatment of network information theory and its applications provides the first unified coverage of both classical and recent results. With an approach that balances the introduction of new models and new coding techniques, readers are guided through Shannon's point-to-point information theory, single-hop networks, multihop networks, and extensions to distributed computing, secrecy, wireless communication, and networking. Elementary mathematical tools and techniques are used throughout, requiring only basic knowledge of probability, whilst unified proofs of coding theorems are based on a few simple lemmas, making the text accessible to newcomers. Key topics covered include successive cancellation and superposition coding, MIMO wireless communication, network coding, and cooperative relaying. Also covered are feedback and interactive communication, capacity approximations and scaling laws, and asynchronous and random access channels. This book is ideal for use in the classroom, for self-study, and as a reference for researchers and engineers in industry and academia.

Features
‧ The first complete and unified coverage of both classical and recent results
‧ Uses elementary mathematical tools and techniques throughout, making the text open to newcomers to the field
‧ Includes a wealth of illustrations, worked examples, bibliographic notes and over 250 end-of-chapter problems

Table Of Contents

1. Introduction

Part I. Preliminaries:

2. Information measures and typicality

3. Point-to-point information theory

Part II. Single-Hop Networks:

4. Multiple access channels

5. Degraded broadcast channels

6. Interference channels

7. Channels with state

8. General broadcast channels

9. Gaussian vector channels

10. Distributed lossless compression

11. Lossy compression with side information

12. Distributed lossy compression

13. Multiple description coding

14. Joint source-channel coding

Part III. Multihop Networks:

15. Graphical networks

16. Relay channels

17. Interactive channel coding

18. Discrete memoryless networks

19. Gaussian networks

20. Compression over graphical networks

Part IV. Extensions:

21. Communication for computing

22. Information theoretic secrecy

23. Wireless fading channels

24. Networking and information theory

Appendices:

A. Convex sets and functions

B. Probability and estimation

C. Cardinality bounding techniques

D. Fourier–Motzkin elimination

E. Convex optimization.