Low Delay Distributed Source Coding


Distributed Source Coding

Author : Shuang Wang

Publisher : John Wiley & Sons

Page : 384 pages

File Size : 17,14 MB

Release : 2017-01-05

Category : Science

ISBN : 1118705971

Get eBook

Book Description

Distributed source coding is one of the key enablers for efficient cooperative communication. The potential applications range from wireless sensor networks, ad-hoc networks, and surveillance networks, to robust low-complexity video coding, stereo/Multiview video coding, HDTV, hyper-spectral and multispectral imaging, and biometrics. The book is divided into three sections: theory, algorithms, and applications. Part one covers the background of information theory with an emphasis on DSC; part two discusses designs of algorithmic solutions for DSC problems, covering the three most important DSC problems: Slepian-Wolf, Wyner-Ziv, and MT source coding; and part three is dedicated to a variety of potential DSC applications. Key features: Clear explanation of distributed source coding theory and algorithms including both lossless and lossy designs. Rich applications of distributed source coding, which covers multimedia communication and data security applications. Self-contained content for beginners from basic information theory to practical code implementation. The book provides fundamental knowledge for engineers and computer scientists to access the topic of distributed source coding. It is also suitable for senior undergraduate and first year graduate students in electrical engineering; computer engineering; signal processing; image/video processing; and information theory and communications.



Distributed Source Coding

Author : Pier Luigi Dragotti

Publisher : Academic Press

Page : 359 pages

File Size : 11,20 MB

Release : 2009-02-24

Category : Technology & Engineering

ISBN : 0080922740

Get eBook

Book Description

The advent of wireless sensor technology and ad-hoc networks has made DSC a major field of interest. Edited and written by the leading players in the field, this book presents the latest theory, algorithms and applications, making it the definitive reference on DSC for systems designers and implementers, researchers, and graduate students. This book gives a clear understanding of the performance limits of distributed source coders for specific classes of sources and presents the design and application of practical algorithms for realistic scenarios. Material covered includes the use of standard channel codes, such as LDPC and Turbo codes, to DSC, and discussion of the suitability of compressed sensing for distributed compression of sparse signals. Extensive applications are presented and include distributed video coding, microphone arrays and securing biometric data. Clear explanation of the principles of distributed source coding (DSC), a technology that has applications in sensor networks, ad-hoc networks, and distributed wireless video systems for surveillance Edited and written by the leading players in the field, providing a complete and authoritative reference Contains all the latest theory, practical algorithms for DSC design and the most recently developed applications







Distributed Lossy Source Coding Using BCH-DFT Codes

Author : Mojtaba Vaezi

Publisher :

Page : pages

File Size : 43,93 MB

Release : 2014

Category :

ISBN :

Get eBook

Book Description

"Distributed source coding, separate encoding (compression) and joint decoding of statistically dependent sources, arises in an increasing number of applications like sensor networks and multiview video coding. Many of those applications are highly interactive, requiring the development of low-delay, energy-limited communication and computing schemes. Currently, this compression is performed by using capacity-approaching binary channel codes. As a natural extension, distributed lossy source coding is realized by cascading a quantizer and Slepian-Wolf coding in the binary domain. Despite big strides in practical distributed source coding techniques, this problem is still demanding in terms of processing power, bandwidth, and delay.In this dissertation, we develop a new framework for distributed lossy source coding, in which we use real-number codes for binning. Specifically, we use a class of Bose-Chaudhuri-Hocquenghem (BCH) codes in the real/complex field known as the discrete Fourier transform (DFT) codes. Contrary to the conventional scheme, we first compress the continuous-valued sources and then quantize them. The new scheme exploits the correlation between continuous-valued sources, rather than quantized ones, which is more accurate. Also, by using short BCH-DFT codes, it reduces the complexity and delay and offers the potential to avoid the problems of the conventional quantization and binning approach, with relatively simple encoder/decoder.We propose both syndrome- and parity-based schemes, and we extend the parity-based scheme to distributed joint source-channel coding based on a single DFT code. Further, to adapt to uncertainty in the degree of statistical dependence between the sources, we construct rate-adaptive BCH-DFT codes. This allows the encoder to switch flexibly between encoding sample rates, if the degree of statistical dependence varies. The construction of rate-adaptive codes is based on transmission of additional syndrome samples and a simple extension of the subspace-based decoding.Another major contribution of this dissertation is to generalize the encoding/decoding of BCH-DFT codes. We prove that the parity frequencies of a BCH-DFT code, or equivalently the zeros of codewords in the frequency domain, are not required to be adjacent; we provide the decoding algorithm as well. This offers flexibility in constructing BCH-DFT codes and further improvement in the decoding which can be exploited in channel coding as well." --





Distributed Source Coding Over Wireless User Cooperation

Author : Ruiyuan Hu

Publisher :

Page : 123 pages

File Size : 15,67 MB

Release : 2009

Category :

ISBN : 9781109389685

Get eBook

Book Description

Distributed source coding (DSC) refers to the problem of compressing two or more physically-separated information sources, where the sources (e.g. sensors) send the (compressed) information to a central point (e.g. a monitoring station) without communicating to each other. Cooperative communication, also known as user cooperation or the relay channel problem, allows single-antenna users in a multi-user scenario to share antennas with each other to form a virtual multiple-antenna system. These two technologies, originated in the seventies, have caused a resurgence of interest in recent years. In this dissertation, we investigate these two technologies and try to apply distributed source coding into user cooperation. Three topics are studied: The first is to develop a new scheme to attack the noisy-channel Slepian-Wolf coding problem using serially concatenated codes (SCC). The advantage is two-fold: (i) separate refining of compression rate and error protection capability is made possible and (ii) many useful results about SCC can be used to achieve joint optimization. The second topic considers the design of two-user cooperation schemes by exploiting distributed source coding technologies. Two user cooperation schemes, Slepian-Wolf cooperation and Wyner-Ziv cooperation, are proposed, which exploit Slepian-Wolf coding and Wyner-Ziv coding, respectively. Possibly the first practical schemes that implement the idea of compress-and-forward, these schemes offer substantial gains over existing cooperative strategies especially when the inter-user channel is at outage. The third topic is to develop an extension for cooperative communication to High-Speed Packet Downlink Access (HSDPA) cellular system which increases both the overall cell capacity as well as coverage near the cell edge at a relatively low cost.





Special Section

Author : Zixiang Xiong

Publisher :

Page : 416 pages

File Size : 30,20 MB

Release : 2006

Category :

ISBN :

Get eBook

Book Description