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Binary Interactive Error Resilience Beyond 1/8 (or why (1/2)^3>1/8)

Author(s): Efremenko, Klim; Kol, Gillat; Saxena, Raghuvansh

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Abstract: Interactive error correcting codesInteractive error correcting codes are codes that encode a two party communication protocol to an error-resilient protocol that succeeds even if a constant fraction of the communicated symbols are adversarially corrupted, at the cost of increasing the communication by a constant factor. What is the largest fraction of corruptions that such codes can protect against? If the error-resilient protocol is allowed to communicate large (constant sized) symbols, Braverman and Rao (STOC, 2011) show that the maximum rate of corruptions that can be tolerated is 1 /4. They also give a binary interactive error correcting protocol that only communicates bits and is resilient to 1 /2 fraction of errors, but leave the optimality of this scheme as an open problem. We answer this question in the negative, breaking the 1 /8 barrier. Specifically, we give a binary interactive error correcting scheme that is resilient to 5 /39 > 1 /8 fraction of adversarial errors. Our scheme builds upon a novel construction of binary list-decodable interactive codes with small list size.
Publication Date: 2020
Citation: Efremenko, Klim, Gillat Kol, and Raghuvansh R. Saxena. "Binary Interactive Error Resilience Beyond 1/8 (or why (1/2)^3>1/8)." In IEEE 61st Annual Symposium on Foundations of Computer Science (FOCS) (2020): pp. 470-481. doi:10.1109/FOCS46700.2020.00051
DOI: 10.1109/FOCS46700.2020.00051
ISSN: 1523-8288
EISSN: 2575-8454
Pages: 470 - 481
Type of Material: Conference Article
Journal/Proceeding Title: IEEE 61st Annual Symposium on Foundations of Computer Science (FOCS)
Version: Author's manuscript



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