The Reliability Function of Lossy Source-Channel Coding of Variable-Length Codes with Feedback
Information Theory
2019-04-09 v3 math.IT
Abstract
We consider transmission of discrete memoryless sources (DMSes) across discrete memoryless channels (DMCs) using variable-length lossy source-channel codes with feedback. The reliability function (optimum error exponent) is shown to be equal to where is the rate-distortion function of the source, is the maximum relative entropy between output distributions of the DMC, and is the Shannon capacity of the channel. We show that, in this setting and in this asymptotic regime, separate source-channel coding is, in fact, optimal.
Cite
@article{arxiv.1710.07419,
title = {The Reliability Function of Lossy Source-Channel Coding of Variable-Length Codes with Feedback},
author = {Lan V. Truong and Vincent Y. F. Tan},
journal= {arXiv preprint arXiv:1710.07419},
year = {2019}
}
Comments
Accepted to IEEE Transactions on Information Theory in Apr. 2019