Bibliographic Information: Muramatsu, J. (2024). Distributed Source Coding, Multiple Description Coding, and Source Coding with Side Information at Decoders Using Constrained-Random Number Generators. arXiv preprint arXiv:2410.07939v1.
Research Objective: This paper aims to unify the frameworks of distributed source coding, multiple description coding, and source coding with side information at decoders, and characterize their multi-letter rate-distortion regions for general correlated sources.
Methodology: The paper utilizes information-spectrum methods and constrained-random number generators to derive the multi-letter rate-distortion regions. It establishes the equivalence between the multiple-decoder extension of distributed source coding with decoder side information and the multiple-source extension of multiple description coding with decoder side information.
Key Findings: The paper proves that the multi-letter rate-distortion region for the unified framework is achievable using a code based on constrained-random number generators. It also demonstrates that this code achieves the best known single-letter inner regions when the random variables are assumed to be stationary and memoryless.
Main Conclusions: The paper concludes that the proposed unified framework, characterized by its multi-letter rate-distortion region, provides a powerful tool for analyzing and designing efficient coding schemes for various scenarios involving correlated sources, side information, and multiple decoders.
Significance: This research significantly contributes to the field of information theory by providing a unified understanding of different source coding problems and offering a practical coding scheme based on constrained-random number generators.
Limitations and Future Research: While the paper derives the multi-letter rate-distortion region, it acknowledges that this region is not directly computable. Future research could focus on deriving computable single-letter regions for specific cases, particularly for stationary memoryless correlated sources. Additionally, exploring the optimality of the proposed code for specific source distributions and distortion measures remains an open problem.
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