Mean dimension and rate-distortion function revisited

Abstract

Around the mean dimensions and rate-distortion functions, using some tools from local entropy theory this paper establishes the following main results: (1) We prove that for non-ergodic measures associated with almost sure processes, the mean Rényi information dimension coincides with the information dimension rate. This answers a question posed by Gutman and Śpiewak (in Around the variational principle for metric mean dimension, Studia Math. 261(2021) 345-360). (2) We introduce four types of rate-distortion entropies and establish their relation with Kolmogorov-Sinai entropy. (3) We show that for systems with the marker property, if the mean dimension is finite, then the supremum in Lindenstrauss-Tsukamoto's double variational principle can be taken over the set of ergodic measures. Additionally, the double variational principle holds for various other measure-theoretic ε-entropies.

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