中文

Salami Slicing Trellis for Synchronization Errors in DNA Coding

信息论 2026-06-27 v1

摘要

On top of substitution errors, DNA storage channels suffer from both insertions and deletions at the same time. It is therefore important to develop error-correcting codes with efficient encoders and decoders that can combat all three types of noise. This paper introduces the salami-slicing trellis, a decision-feedback trellis that computes bitwise posterior probabilities along each strand and is coupled with polar codes across strands. The decoder alternates between advancing the trellises by one position and polar-decoding the resulting cross-strand slice, feeding the decoded bits back to the trellises for the next position. Simulations suggest that the resulting coding scheme approaches the conjectured capacity of the substitution-insertion-deletion channel.

引用

@article{arxiv.2606.28802,
  title  = {Salami Slicing Trellis for Synchronization Errors in DNA Coding},
  author = {Tsung-Han Wu and Joseph Swernofsky and Hsin-Po Wang},
  journal= {arXiv preprint arXiv:2606.28802},
  year   = {2026}
}

备注

6 pages