Coding against deletions in oblivious and online models
Abstract
We consider binary error correcting codes when errors are deletions. A basic challenge concerning deletion codes is determining , the zero-rate threshold of adversarial deletions, defined to be the supremum of all for which there exists a code family with rate bounded away from 0 capable of correcting a fraction of adversarial deletions. A recent construction of deletion-correcting codes [Bukh et al 17] shows that , and the trivial upper bound, , is the best known. Perhaps surprisingly, we do not know whether or not . In this work, to gain further insight into deletion codes, we explore two related error models: oblivious deletions and online deletions, which are in between random and adversarial deletions in power. In the oblivious model, the channel can inflict an arbitrary pattern of deletions, picked without knowledge of the codeword. We prove the existence of binary codes of positive rate that can correct any fraction of oblivious deletions, establishing that the associated zero-rate threshold equals . For online deletions, where the channel decides whether to delete bit based only on knowledge of bits , define the deterministic zero-rate threshold for online deletions to be the supremum of for which there exist deterministic codes against an online channel causing deletions with low average probability of error. That is, the probability that a randomly chosen codeword is decoded incorrectly is small. We prove if and only if .
Keywords
Cite
@article{arxiv.1612.06335,
title = {Coding against deletions in oblivious and online models},
author = {Venkatesan Guruswami and Ray Li},
journal= {arXiv preprint arXiv:1612.06335},
year = {2017}
}