Binary Reconstruction Codes for Correcting One Deletion and One Substitution

Abstract

In this paper, we investigate binary reconstruction codes capable of correcting one deletion and one substitution. We define the single-deletion single-substitution ball function B as a mapping from a sequence to the set of sequences that can be derived from it by performing one deletion and one substitution. A binary (n,N;B)-reconstruction code is defined as a collection of binary sequences of length n such that the intersection size between the single-deletion single-substitution balls of any two distinct codewords is strictly less than N . This property ensures that each codeword can be uniquely reconstructed from N distinct elements in its single-deletion single-substitution ball. Our main contribution is to demonstrate that when N is set to 4n - 8 , 3n - 4 , 2n+9, n+21 , 31, and 7, the redundancy of binary (n,N;B)-reconstruction codes can be 0, 1, 2, n + 3 , n + 1 , and 3 n + 4 , respectively, where the logarithm is on base two.