Channels with Input-Correlated Synchronization Errors
Abstract
"Independent and identically distributed" errors do not accurately capture the noisy behavior of real-world data storage and information transmission technologies. Motivated by this, we study channels with input-correlated synchronization errors, meaning that the distribution of synchronization errors (such as deletions and insertions) applied to the -th input may depend on the whole input string . We begin by identifying conditions on the input-correlated synchronization channel under which the channel's information capacity is achieved by a stationary ergodic input source and is equal to its coding capacity. These conditions capture a wide class of channels, including channels with correlated errors observed in DNA-based data storage systems and their multi-trace versions, and generalize prior work. To showcase the usefulness of the general capacity theorem above, we combine it with techniques of Pernice-Li-Wootters (ISIT 2022) and Brakensiek-Li-Spang (FOCS 2020) to obtain explicit capacity-achieving codes for multi-trace channels with runlength-dependent deletions, motivated by error patterns observed in DNA-based data storage systems.
Cite
@article{arxiv.2504.14087,
title = {Channels with Input-Correlated Synchronization Errors},
author = {Roni Con and João Ribeiro},
journal= {arXiv preprint arXiv:2504.14087},
year = {2026}
}
Comments
60 pages