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 Digital Communications

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 Ian Glover, Peter Grant

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 Prentice Hall

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 Summary

For undergraduate and first year postgraduate courses in Digital Communications Systems. The aim of this text is fourfold: to present the mathematical theory of signals and systems as required to understand modern digital communications equipment and techniques, to apply and extend these concepts to information transmission links, to show how these transmission links are used in fixed and mobile data communications systems, and to introduce the operating principles of modern communications networks. Providing balanced coverage of theory, applications, and system implementation, this book is useful in both academia and in the rapidly growing communications industry.

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Features

Presents a comprehensive treatment of digital communications principles.
Early chapters summarize the history of communication systems and introduce basic concepts such as accessing, modulation, multiplexing, coding, and switching for line and radio transmission.
Includes over 80 illustrative worked examples and over 170 end-of-chapter problems.
Expanded coverage to include practical aspects of the implementation of digital PCM, SDH, packet speech systems, and the capability of optical and microwave long-haul communication systems.
Includes full descriptions of SDM, ISDN, and video coding.
Covers new data networking and packet-switched communication techniques.
Reviews the advantages of digital communication systems over the older analogue systems.
Solutions to end-of-chapter problems on the worldwide web: http://www.ee.ed.ac.uk/~pmg/ /> DIGICOMMS/index.html

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Table of Contents


1. Digital Communications Overview.


I. SIGNALS AND SYSTEMS THEORY.


2. Periodic and Transient Signals.
3. Random Signals and Noise.
4. Linear Systems.

II. DIGITAL COMMUNICATIONS PRINCIPLES.


5. Sampling, Multiplexing, and PCM.
6. Bandbased Transmission and Line Coding.
7. Decision Theory.
8. Optimum Filtering for Transmission and Reception
9. Information Theory and Source Coding.
10. Error Control Coding.
11. Bandpass Modulation of a Carrier Signal.
12. System Noise and Communications Link Budgets.
13. Communication Systems Simulations.

III. APPLICATIONS.


14. Fixed Point Microwave Communications.
15. Mobile and Cellular Radio.
16. Video Transmission and Storage.

IV. NETWORKS.


17. Queuing Theory for Packet Networks.
18. Network Topology and Protocols.
19. Public Networks and the Integrated Services Digital Network (ISDN).
Appendix A: The Error Function.
References.
Index.

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