DocumentCode
921814
Title
Tree encoding of Gaussian sources
Author
Dick, Robert J. ; Berger, Toby ; Jelinek, Frederick
Volume
20
Issue
3
fYear
1974
fDate
5/1/1974 12:00:00 AM
Firstpage
332
Lastpage
336
Abstract
Tree codes are known to be capable of performing arbitrarily close to the rate-distortion function for any memoryless source and single-letter fidelity criterion. Tree coding and tree search strategies are investigated for the discrete-time memoryless Gaussian source encoded for a signal-power-to-mean-squared-error ratio of about 30 dB (about 5 binary digits per source output). Also, a theoretical lower bound on average search effort is derived. Two code search strategies (the Viterbi algorithm and the stack algorithm) were simulated in assembly language on a large digital computer. After suitable modifications, both strategies yielded encoding with a signal-to-distortion ratio about 1 dB below the limit set by the rate-distortion function. Although this performance is better than that of any previously known instrumentable scheme, it unfortunately requires search computation of the order of
machine cycles per source output encoded.
machine cycles per source output encoded.Keywords
Rate-distortion theory; Source coding; Tree codes; Assembly; Computational modeling; Computer simulation; Data compression; Delay; Distortion measurement; Encoding; Entropy coding; Rate-distortion; Viterbi algorithm;
fLanguage
English
Journal_Title
Information Theory, IEEE Transactions on
Publisher
ieee
ISSN
0018-9448
Type
jour
DOI
10.1109/TIT.1974.1055234
Filename
1055234
Link To Document