Overview
- Editors:
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Lawrence E. Larson
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Department of Electrical and Computer Engineering, University of California, San Diego La Jolla, USA
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Lev S. Tsimring
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Institute for Nonlinear Science, University of California, San Diego La Jolla, USA
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Jia-Ming Liu
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Department of Electrical Engineering, University of California, Los Angeles, USA
- Has a cross-disciplinary character, as it reflects the current state of the art in the field which is an intersection of physics, applied mathematics, and electrical engineering
- Written by several leading experts in these fields and combines theoretical ideas and experimental results
- Focused towards implementation of theoretical ideas
- Discusses practical issues relevant for the engineering community: noise performance, robustness, and the information capacity of chaos-based communication schemes
- Includes supplementary material: sn.pub/extras
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Table of contents (11 chapters)
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- Lawrence E. Larson, Lev S. Tsimring, Henry D. I. Abarbanel, Jia-Ming Liu, Kung Yao, Alexander R. Volkovskii et al.
Pages 1-27
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- Nikolai F. Rulkov, Alexander R. Volkovskii, Michail M. Sushchik, Lev S. Tsimring, Lucas Illing
Pages 29-57
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- Alexander R. Volkovskii, Lev S. Tsimring, Nikolai F. Rulkov, Ian Langmore, Stephen C. Young
Pages 59-89
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- David C. Laney, Gian Mario Maggio
Pages 91-132
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- Roy Tenny, Lev S. Tsimring, Henry D. I. Abarbanel, Lawrence E. Larson
Pages 191-229
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- Jesús Urías, Eric Campos, Nikolai F. Rulkov
Pages 231-242
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- How-Foo Chen, Jia-Ming Liu
Pages 243-284
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- Jia-Ming Liu, How-Foo Chen, Shuo Tang
Pages 285-340
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- Shuo Tang, How-Foo Chen, Jia-Ming Liu
Pages 341-378
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Back Matter
Pages 379-382
About this book
This book provides a summary of the research conducted at UCLA, Stanford University, and UCSD over the last ?ve years in the area of nonlinear dyn- ics and chaos as applied to digital communications. At ?rst blush, the term “chaotic communications” seems like an oxymoron; how could something as precise and deterministic as digital communications be chaotic? But as this book will demonstrate, the application of chaos and nonlinear dynamicstocommunicationsprovidesmanypromisingnewdirectionsinareas of coding, nonlinear optical communications, and ultra-wideband commu- cations. The eleven chapters of the book summarize many of the promising new approaches that have been developed, and point the way to new research directions in this ?eld. Digital communications techniques have been continuously developed and re?ned for the past ?fty years to the point where today they form the heart of a multi-hundred billion dollar per year industry employing hundreds of thousands of people on a worldwide basis. There is a continuing need for transmission and reception of digital signals at higher and higher data rates. There are a variety of physical limits that place an upper limit on these data rates, and so the question naturally arises: are there alternative communi- tion techniques that can overcome some of these limitations? Most digital communications today is carried out using electronic devices that are essentially “linear,” and linear system theory has been used to c- tinually re?ne their performance. In many cases, inherently nonlinear devices are linearized in order to achieve a certain level of linear system performance.
Editors and Affiliations
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Department of Electrical and Computer Engineering, University of California, San Diego La Jolla, USA
Lawrence E. Larson
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Institute for Nonlinear Science, University of California, San Diego La Jolla, USA
Lev S. Tsimring
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Department of Electrical Engineering, University of California, Los Angeles, USA
Jia-Ming Liu