English

Bounds and Constructions of Codes for Ordered Composite DNA Sequences

Information Theory 2026-02-19 v1 math.IT

Abstract

This paper extends the foundational work of Dollma \emph{et al}. on codes for ordered composite DNA sequences. We consider the general setting with an alphabet of size qq and a resolution parameter kk, moving beyond the binary (q=2q=2) case primarily studied previously. We investigate error-correcting codes for substitution errors and deletion errors under several channel models, including (e1,,ek)(e_1,\ldots,e_k)-composite error/deletion, ee-composite error/deletion, and the newly introduced tt-(e1,,et)(e_1,\ldots,e_t)-composite error/deletion model. We first establish equivalence relations among families of composite-error correcting codes (CECCs) and among families of composite-deletion correcting codes (CDCCs). This significantly reduces the number of distinct error-parameter sets that require separate analysis. We then derive novel and general upper bounds on the sizes of CECCs using refined sphere-packing arguments and probabilistic methods. These bounds together cover all values of parameters qq, kk, (e1,,ek)(e_1,\ldots,e_k) and ee. In contrast, previous bounds were only established for q=2q=2 and limited choices of kk, (e1,,ek)(e_1,\ldots,e_k) and ee. For CDCCs, we generalize a known non-asymptotic upper bound for (1,0,,0)(1,0,\ldots,0)-CDCCs and then provide a cleaner asymptotic bound. On the constructive side, for any q2q\ge2, we propose (1,0,,0)(1,0,\ldots,0)-CDCCs, 11-CDCCs and tt-(1,,1)(1,\ldots,1)-CDCCs with near-optimal redundancies. These codes have efficient and systematic encoders. For substitution errors, we design the first explicit encoding and decoding algorithms for the binary (1,0,,0)(1,0,\ldots,0)-CECC constructed by Dollma \emph{et al}, and extend the approach to general qq. Furthermore, we give an improved construction of binary 11-CECCs, a construction of nonbinary 11-CECCs, and a construction of tt-(1,,1)(1,\ldots,1)-CECCs. These constructions are also systematic.

Keywords

Cite

@article{arxiv.2602.16406,
  title  = {Bounds and Constructions of Codes for Ordered Composite DNA Sequences},
  author = {Zuo Ye and Yuling Li and Zhaojun Lan and Gennian Ge},
  journal= {arXiv preprint arXiv:2602.16406},
  year   = {2026}
}

Comments

submitted

R2 v1 2026-07-01T10:41:14.190Z