Extending binary linear codes to self-orthogonal codes

Abstract

Kim et al. (2021) gave a method to embed a given binary [n,k] code C (k = 3, 4) into a self-orthogonal code of the shortest length which has the same dimension k and minimum distance d' d(C). We extend this result by proposing a new method related to a special matrix, called the self-orthogonality matrix SOk, obtained by shortening a Reed-Muller code R(2,k). Using this approach, we can extend binary linear codes to many optimal self-orthogonal codes of dimensions 5 and 6. Furthermore, we partially disprove the conjecture (Kim et al. (2021)) by showing that if 31 n 256 and n 14,22,29 31, then there exist optimal [n,5] codes which are self-orthogonal. We also construct optimal self-orthogonal [n,6] codes when 41 n 256 satisfies n 46, 54, 61 and n 7, 14, 22, 29, 38, 45, 53, 60 63.