Binary self-orthogonal codes which meet the Griesmer bound or have optimal minimum distances

Abstract

The purpose of this paper is two-fold. First, we characterize the existence of binary self-orthogonal codes meeting the Griesmer bound by employing Solomon-Stiffler codes and some related residual codes. Second, using such a characterization, we determine the exact value of dso(n,7) except for five special cases and the exact value of dso(n,8) except for 41 special cases, where dso(n,k) denotes the largest minimum distance among all binary self-orthogonal [n, k] codes. Currently, the exact value of dso(n,k) (k 6) was determined by Shi et al. (2022). In addition, we develop a general method to prove the nonexistence of some binary self-orthogonal codes by considering the residual code of a binary self-orthogonal code.