Digital Communications 3/e (絕)
- 20本以上,享 8.5折
售價
$
洽詢
- 一般書籍
- ISBN:9780273718307
- 作者:Ian Glover, Peter Grant
- 版次:3
- 年份:2010
- 出版商:Pearson Education
- 頁數/規格:1024頁/平裝單色
- 參考網頁:Digital Communications 3/e
書籍介紹
本書特色
目錄
作者介紹
Description
Digital techniques are central to almost all modern telecommunications systems. The third edition of Digital Communications has retained both its comprehensive coverage and its balance between theory, applications and systems implementation. Its main aim is to develop the mathematical theory of signal processing and use this theory to describe modern digital communications.
Digital techniques are central to almost all modern telecommunications systems. The third edition of Digital Communications has retained both its comprehensive coverage and its balance between theory, applications and systems implementation. Its main aim is to develop the mathematical theory of signal processing and use this theory to describe modern digital communications.
Features
- Presents a comprehensive quantitative treatment of digital communications principles including information theory, PCM, source coding, encryption, channel coding, multiplexing, modulation and optimum filtering
- Includes a thorough treatment of system noise and communication link budgets
- Introduces the principles of system simulation
- Describes a range of modern systems, including satellite communications, cellular radio and networks (wireless MANs, LANs and PANs)
- Provides a revised and extended treatment of networks that includes OFDM, circuit and packet switching, ATM and B-ISDN, MIMO, xDSL, FTTx, FDDI, DQDB, BFWA (including IEE 802.16), Bluetooth and UWB
- Extensive examples and end-of-chapter problems
- Updated references, web addresses, standards and bibliography
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, source coding and encryption,
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. Network applications, topologies and architecture,
18. Networks protocols,
19. Network performance using queueing theory (M. E. Woodward),
20. Switched networks and WANs
21. Broadcast networks and LANs
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, source coding and encryption,
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. Network applications, topologies and architecture,
18. Networks protocols,
19. Network performance using queueing theory (M. E. Woodward),
20. Switched networks and WANs
21. Broadcast networks and LANs
Ian Glover, University of Bath
Peter Grant, University of Edinburgh
Peter Grant, University of Edinburgh
