Stationarity in the Realizations of the Causal Rate-Distortion Function for One-Sided Stationary Sources

Abstract

This paper derives novel results on the characterization of the the causal information rate-distortion function (IRDF) Rcit(D) for arbitrarily-distributed one-sided stationary -th order Markov source x(1),x(2),.... It is first shown that Gorbunov and Pinsker's results on the stationarity of the realizations to the causal IRDF (stated for two-sided stationary sources) do not apply to the commonly used family of asymptotic average single-letter (AASL) distortion criteria. Moreover, we show that, in general, a reconstruction sequence cannot be both jointly stationary with a one-sided stationary source sequence and causally related to it. This implies that, in general, the causal IRDF for one-sided stationary sources cannot be realized by a stationary distribution. However, we prove that for an arbitrarily distributed one-sided stationary source and a large class of distortion criteria (including AASL), the search for Rcit(D) can be restricted to distributions which yield the output sequence y(1), y(2),... jointly stationary with the source after samples. Finally, we improve the definition of the stationary causal IRDF Rcit(D) previously introduced by Derpich and stergaard for two-sided Markovian stationary sources and show that Rcit(D) for a two-sided source ...,x(-1),x(0),x(1),... equals Rcit(D) for the associated one-sided source x(1), x(2),.... This implies that, for the Gaussian quadratic case, the practical zero-delay encoder-decoder pairs proposed by Derpich and stergaard for approaching Rcit(D) achieve an operational data rate which exceeds Rcit(D) by less than 1+0.5 2(2 π e /12) 1.254 bits per sample.