On the Sum-Rate Loss of Quadratic Gaussian Multiterminal Source Coding

This work studies the sum-rate loss of quadratic Gaussian multiterminal source coding, i.e., the difference between the minimum sum-rates of distributed encoding and joint encoding (both with joint decoding) of correlated Gaussian sources subject to MSE distortion constraints on individual sources....

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Veröffentlicht in:IEEE transactions on information theory Jg. 57; H. 9; S. 5588 - 5614
Hauptverfasser: Yang, Yang, Zhang, Yifu, Xiong, Zixiang
Format: Journal Article
Sprache:Englisch
Veröffentlicht: New York, NY IEEE 01.09.2011
Institute of Electrical and Electronics Engineers
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Schlagworte:
and supremum sum-rate loss
Applied sciences
Asymptotic methods
Bi-eigen equal-variance with equal distortion
Coding, codes
Correlation analysis
Covariance matrix
Decoding
Exact sciences and technology
Information theory
Information, signal and communications theory
joint encoding
Joints
Loss measurement
Normal distribution
quadratic Gaussian multiterminal source coding
reverse water-filling
Signal and communications theory
Source coding
sum-rate
Telecommunications and information theory
Upper bound
Lower bound
Source coding
Gaussian channel
Decoding
and supremum sum-rate loss
sum-rate
quadratic Gaussian multiterminal source coding
Mean square error
Bi-eigen equal-variance with equal distortion
Upper bound
joint encoding
reverse water-filling
Aqueous solution
ISSN:0018-9448, 1557-9654
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Beschreibung
Zusammenfassung:This work studies the sum-rate loss of quadratic Gaussian multiterminal source coding, i.e., the difference between the minimum sum-rates of distributed encoding and joint encoding (both with joint decoding) of correlated Gaussian sources subject to MSE distortion constraints on individual sources. It is shown that under the nondegraded assumption, i.e., all target distortions are simultaneously achievable by a Gaussian Berger-Tung scheme, the supremum of the sum-rate loss of distributed encoding over joint encoding of L jointly Gaussian sources increases almost linearly in the number of sources L , with an asymptotic slope of 0.1083 bit per sample per source as L goes to infinity. This result is obtained even though we currently do not have the full knowledge of the minimum sum-rate for the distributed encoding case. The main idea is to upper-bound the minimum sum-rate of multiterminal source coding by that achieved by parallel Gaussian test channels while lower-bounding the minimum sum-rate of joint encoding by a reverse water-filling solution to a relaxed joint encoding problem of the same set of Gaussian sources with a sum-distortion constraint (that equals the sum of the individual target distortions). We show that under the nondegraded assumption, the supremum difference between the upper bound for distributed encoding and the lower bound for joint encoding is achieved in the bi-eigen equal-variance with equal distortion case, in which both bounds are known to be tight.
Bibliographie:SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 14
ISSN:0018-9448
1557-9654
DOI:10.1109/TIT.2011.2162192