2015
DOI: 10.1007/s10623-015-0123-1
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A Latin square autotopism secret sharing scheme

Abstract: We present a novel secret sharing scheme where the secret is an autotopism (a symmetry) of a Latin square. Previously proposed secret sharing schemes involving Latin squares have many drawbacks: (a) Latin squares contain n 2 entries, which may be too large, (b) partial information about the secret may be directly revealed, (c) a subsequently discovered subtle "flaw", (d) difficulty in initialization and reconstruction, (e) difficulty in verification, and (f) difficulty in generalizing to a multi-level scheme. … Show more

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Cited by 15 publications
(12 citation statements)
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“…Diagonally cyclic equi-n-squares are equivalent to equi-n-squares that admit an n-cycle automorphism. Latin squares that admit automorphisms are used in secret sharing [32], and the Latin square could easily be replaced by an equi-n-square, and interpreted as a graph decomposition [7] (see [30] for a broad and detailed treatment). In abstract algebra, diagonally cyclic equi-n-squares correspond to n-element magmas (sometimes called groupoids) that admit n-cycle automorphisms.…”
Section: Discussionmentioning
confidence: 99%
“…Diagonally cyclic equi-n-squares are equivalent to equi-n-squares that admit an n-cycle automorphism. Latin squares that admit automorphisms are used in secret sharing [32], and the Latin square could easily be replaced by an equi-n-square, and interpreted as a graph decomposition [7] (see [30] for a broad and detailed treatment). In abstract algebra, diagonally cyclic equi-n-squares correspond to n-element magmas (sometimes called groupoids) that admit n-cycle automorphisms.…”
Section: Discussionmentioning
confidence: 99%
“…An early Latin-square secret-sharing scheme was given by Cooper, Donovan, and Seberry [23] (see also [24]) based on critical sets in 1994, but it was subsequently harshly criticized [25]- [27]. Afterward, changing the secret from the Latin square to one of its autotopisms was suggested in [28] and developed in [29]. Compared with critical sets, autotopisms of Latin squares are better understood [30]- [33] and are more practical to work with (e.g., determining if a partial Latin square has a completion as required by the original Latin square secret-sharing scheme is NP-complete [34]).…”
Section: Secret Sharing Schemesmentioning
confidence: 99%
“…This paper applies the autotopism-based scheme LASS [29] to the proposed dispersal scheme, for a high-level of key protection. We introduce the basic notions and properties of LASS, as well as why we use it in Section III.…”
Section: Secret Sharing Schemesmentioning
confidence: 99%
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“…Recent advances about the sets of autotopisms, automorphisms and autoparatopisms of Latin squares are exposed, for instance, in [145][146][147][148]. We note in particular on the implementation of autotopisms of Latin squares into the design of authentication schemes [149], secret sharing schemes [150,151] and cryptographic transformations [152] in Cryptography. In addition, an implementation of autotopisms and paratopisms of Latin squares into the design of new graph colouring games [153,154] is being currently developed.…”
Section: Quasigroups Latin Squares and Related Structuresmentioning
confidence: 99%