Secret sharing schemes based on linear codes can be precisely characterized by the relative generalized hamming weight

This paper precisely characterizes secret sharing schemes based on arbitrary linear codes by using the relative dimension/length pro-file (RDLP) and the relative generalized Hamming weight (RGHW). We first describe the equivocation Δ of the secret vector s = [s , ⋯, s ] given m shares in terms of the RDLP of linear codes. We also characterize two thresholds t and t in the secret sharing schemes by the RGHW of linear codes. One shows that any set of at most t shares leaks no information about s, and the other shows that any set of at least t shares uniquely de-termines s. It is clarified that both characterizations for t and t are better than Chen et al.'s ones derived by the regular minimum Hamming weight. Moreover, this paper characterizes the strong security in secret sharing schemes based on linear codes, by generalizing the definition of strongly-secure threshold ramp schemes. We define a secret sharing scheme achiev-ing the a-strong security as the one such that the mutual information be-tween any r elements of (s ,⋯,s ) and any α - r+1 shares is always zero. Then, it is clarified that secret sharing schemes based on linear codes can always achieve the a-strong security where the value a is precisely char-acterized by the RGHW.