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Neural Estimation of the Rate-Distortion Function With Applications to Operational Source Coding

Eric Lei, Hamed Hassani, Shirin Saeedi Bidokhti

2022IEEE Journal on Selected Areas in Information Theory18 citationsDOI

Abstract

A fundamental question in designing lossy data compression schemes is how well one can do in comparison with the rate-distortion function, which describes the known theoretical limits of lossy compression. Motivated by the empirical success of deep neural network (DNN) compressors on large, realworld data, we investigate methods to estimate the rate-distortion function on such data, which would allow comparison of DNN compressors with optimality. While one could use the empirical distribution of the data and apply the Blahut-Arimoto algorithm, this approach presents several computational challenges and inaccuracies when the datasets are large and high-dimensional, such as the case of modern image datasets. Instead, we reformulate the rate-distortion objective, and solve the resulting functional optimization problem using neural networks.We apply the resulting rate-distortion estimator, called NERD, on popular image datasets, and provide evidence that NERD can accurately estimate the rate-distortion function. Using our estimate, we show that the rate-distortion achievable by DNN compressors are within several bits of the rate-distortion function for realworld datasets. Additionally, NERD provides access to the ratedistortion achieving channel, as well as samples from its output marginal. Therefore, using recent results in reverse channel coding, we describe how NERD can be used to construct an operational one-shot lossy compression scheme with guarantees on the achievable rate and distortion. Experimental results demonstrate competitive performance with DNN compressors.

Topics & Concepts

Lossy compressionComputer scienceRate–distortion theoryDistortion (music)AlgorithmEstimatorArtificial neural networkDistortion functionCoding (social sciences)Data compressionArtificial intelligenceDecoding methodsMathematicsBandwidth (computing)StatisticsTelecommunicationsAmplifierAdvanced Neural Network ApplicationsSparse and Compressive Sensing TechniquesImage Enhancement Techniques
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