English

Correcting Bursty/Localized Deletions: A New Error-Position-Estimation Code

Information Theory 2025-07-08 v1 math.IT

Abstract

Codes correcting bursts of deletions and localized deletions have garnered significant research interest in recent years. One of the primary objectives is to construct codes with minimal redundancy. Currently, the best known constructions of qq-ary codes correcting a burst of at most tt deletions ((t)(\le t)-burst-deletion correcting codes) achieve redundancy logn+8loglogn+o(loglogn)\log n+8\log\log n+o(\log\log n) (for any qq and tt) or logn+tloglogn+O(1)\log n+t\log\log n+O(1) (for even qq). For codes correcting single tt-localized-deletion (tt-localized-deletion correcting codes), state-of-the-art constructions attain redundancy logn+O\parenvt(loglogn)2\log n+O\parenv{t(\log\log n)^2} (for any qq and tt) or logn+2tloglogn+O(1)\log n+2t\log\log n+O(1) (for even qq). Here, nn denotes the code-length, and qq and tt are fixed. These codes employ a position-estimation component to approximate error positions, augmented by additional constraints that enable error-correction given the information about error positions. In this work, we select codewords from the set of sequences whose differential sequences are strong-(,ϵ)(\ell,\epsilon)-locally-balanced. By imposing a VT-type constraint and an L1L_1-weight constraint on the differential sequences of codewords, we construct novel position-estimation codes. When q2q\ge 2 and t<qt<q, or qq is even and t<2qt<2q, this approach gives a qq-ary (t)(\le t)-burst-deletion correcting code and a tt-localized-deletion correcting code with redundancy logn+(t1)loglogn+O(1)\log n+(t-1)\log\log n+O(1). In addition to improving previous redundancy, the method is new and our position-estimation codes are simpler than those in previous works. Finally, we give an efficient encoder to encode an arbitrary input sequence into a sequence whose differential sequence is strong-(,ϵ)(\ell,\epsilon)-locally-balanced. To our knowledge, no prior algorithm for this specific task has been reported.

Keywords

Cite

@article{arxiv.2507.04797,
  title  = {Correcting Bursty/Localized Deletions: A New Error-Position-Estimation Code},
  author = {Zuo Ye and Yubo Sun and Gennian Ge},
  journal= {arXiv preprint arXiv:2507.04797},
  year   = {2025}
}

Comments

submitted on 2025.06.17

R2 v1 2026-07-01T03:49:06.916Z