Paper Info
Title
Hybrid digital-analog coding with bandwidth compression for gaussian source-channel pairs
Abstract
Three hybrid digital-analog (HDA) systems, denoted by HDA-I, HDA* and HDA-II, for the coding of a memoryless discrete-time Gaussian source over a discrete-time additive memoryless Gaussian channel under bandwidth compression are studied. The systems employ simple linear coding in their analog component and superimpose their analog and digital signals before channel transmission. Information-theoretic upper bounds on the asymptotically optimal mean squared error distortion of the systems are obtained under both matched and mismatched channel conditions. Allocation schemes for distributing the channel input power between the analog and the digital signals are also examined. It is shown that systems HDA* and HDA-II can asymptotically achieve the optimal Shannon-limit performance under matched channel conditions. Low-complexity and low-delay versions of systems HDA-I and HDA-II are next designed and implemented without the use of error correcting codes. The parameters of these HDA systems, which employ vector quantization in conjunction with binary phase-shift keying modulation in their digital part, are optimized via an iterative algorithm similar to the design algorithm for channel-optimized vector quantizers. Both systems have low complexity and low delay, and guarantee graceful performance improvements for high CSNRs. For memoryless Gaussian sources the designed HDA-II system is shown to be superior to the HDA-I designed system. When applied to a Gauss-Markov source under Karhunen-Loeve processing, the HDA-I system is shown to provide considerably better performance.
Year
DOI
Venue
2009
10.1109/TCOMM.2009.04.070165
IEEE Transactions on Communications
Keywords
Field
DocType
robustness,gaussian channels,mismatched channel condition,hda-i,hda-ii,systems hda,joint source-channel coding,vector quantization,mean squared error distortion,bandwidth compression,karhunen-loeve transforms,broadcasting,hda-ii system,shannon limit,karhunen-loeve processing,linear analog coding.,hda-i system,memoryless discrete-time gaussian source,encoding,hda*,vector quantisation,discrete-time additive memoryless gaussian channel,hybrid digital-analog coding,hybrid digital-analog,index terms: hybrid digital-analog coding,information theory,binary phase-shift keying modulation,channel condition,hda system,systems hda-i,channel input power,iterative algorithm,linear coding,gaussian source-channel pair,error correcting codes,gaussian source-channel pairs,digital signal,channel transmission,combined source-channel coding,gauss-markov source,linear analog coding,noise,mean square error,bandwidth,karhunen loeve,discrete time,phase modulation,channel coding,neodymium,resource management,error correction code,linear code,phase shift keying,decoding,upper bound,indexing terms
Transmission (telecommunications),Digital signal,Computer science,Communication channel,Electronic engineering,Error detection and correction,Modulation,Analog signal,Decoding methods,Noisy-channel coding theorem
Journal
Volume
Issue
ISSN
57
4
0090-6778
Citations 
PageRank 
References 
17
0.88
26
Authors
3
Name
Order
Citations
PageRank
Yadong Wang1170.88
Fady Alajaji231941.92
Tamás Linder361768.20