Ebook: Principles of Digital Transmission: With Wireless Applications
- Tags: Electronic and Computer Engineering, Computer Science general, Automotive and Aerospace Engineering Traffic
- Series: Information Technology: Transmission Processing and Storage
- Year: 2002
- Publisher: Springer US
- Edition: 1
- Language: English
- pdf
Principles of Digital Transmission is designed for advanced undergraduate and graduate level students and professions in telecommunications. Teachers and learners can mix and match chapters to create four distinct courses: (1) a one-term basic course in digital communications; (2) a one-term course in advanced digital communications; (3) a one-term course in information theory and coding; (4) a two-term course sequence in digital communications and coding.
The book provides rigorous mathematical tools for the analysis and design of digital transmission systems. The authors emphasize methodology in their aim to teach the reader how to do it rather than how it is done. They apply the fundamental tools of the discipline onto a number of systems, such as wireless data transmission systems.
Principles of Digital Transmission is designed for advanced undergraduate and graduate level students and professions in telecommunications. Teachers and learners can mix and match chapters to create four distinct courses: (1) a one-term basic course in digital communications; (2) a one-term course in advanced digital communications; (3) a one-term course in information theory and coding; (4) a two-term course sequence in digital communications and coding.
The book provides rigorous mathematical tools for the analysis and design of digital transmission systems. The authors emphasize methodology in their aim to teach the reader how to do it rather than how it is done. They apply the fundamental tools of the discipline onto a number of systems, such as wireless data transmission systems.
Principles of Digital Transmission is designed for advanced undergraduate and graduate level students and professions in telecommunications. Teachers and learners can mix and match chapters to create four distinct courses: (1) a one-term basic course in digital communications; (2) a one-term course in advanced digital communications; (3) a one-term course in information theory and coding; (4) a two-term course sequence in digital communications and coding.
The book provides rigorous mathematical tools for the analysis and design of digital transmission systems. The authors emphasize methodology in their aim to teach the reader how to do it rather than how it is done. They apply the fundamental tools of the discipline onto a number of systems, such as wireless data transmission systems.
Content:
Front Matter....Pages i-xvii
Introduction and motivation....Pages 1-8
A mathematical introduction....Pages 9-102
Basic results from information theory....Pages 103-158
Waveform transmission over the Gaussian Channel....Pages 159-214
Digital modulation schemes....Pages 215-271
Modulations for the wireless channel....Pages 272-311
Intersymbol interference channels....Pages 312-379
Adaptive receivers and channel equalization....Pages 380-428
Carrier and clock synchronization....Pages 429-451
Improving the transmission reliability: Block codes....Pages 452-531
Convolutional and concatenated codes....Pages 532-627
Coded modulation....Pages 628-685
Digital transmission over fading channels....Pages 686-724
Digital transmission over nonlinear channels....Pages 725-772
Useful formulas and approximations....Pages 773-777
Some facts from matrix theory....Pages 778-787
Variational techniques and constrained optimization....Pages 788-790
Transfer functions of directed graphs....Pages 791-793
Approximate computation of averages....Pages 794-806
Viterbi algorithm....Pages 807-815
Back Matter....Pages 817-855
Principles of Digital Transmission is designed for advanced undergraduate and graduate level students and professions in telecommunications. Teachers and learners can mix and match chapters to create four distinct courses: (1) a one-term basic course in digital communications; (2) a one-term course in advanced digital communications; (3) a one-term course in information theory and coding; (4) a two-term course sequence in digital communications and coding.
The book provides rigorous mathematical tools for the analysis and design of digital transmission systems. The authors emphasize methodology in their aim to teach the reader how to do it rather than how it is done. They apply the fundamental tools of the discipline onto a number of systems, such as wireless data transmission systems.
Content:
Front Matter....Pages i-xvii
Introduction and motivation....Pages 1-8
A mathematical introduction....Pages 9-102
Basic results from information theory....Pages 103-158
Waveform transmission over the Gaussian Channel....Pages 159-214
Digital modulation schemes....Pages 215-271
Modulations for the wireless channel....Pages 272-311
Intersymbol interference channels....Pages 312-379
Adaptive receivers and channel equalization....Pages 380-428
Carrier and clock synchronization....Pages 429-451
Improving the transmission reliability: Block codes....Pages 452-531
Convolutional and concatenated codes....Pages 532-627
Coded modulation....Pages 628-685
Digital transmission over fading channels....Pages 686-724
Digital transmission over nonlinear channels....Pages 725-772
Useful formulas and approximations....Pages 773-777
Some facts from matrix theory....Pages 778-787
Variational techniques and constrained optimization....Pages 788-790
Transfer functions of directed graphs....Pages 791-793
Approximate computation of averages....Pages 794-806
Viterbi algorithm....Pages 807-815
Back Matter....Pages 817-855
....
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