New approaches to designing public key cryptosystems using one-way functions and trapdoors in finite groups

A symmetric key cryptosystem based on logarithmic signature s for finite permutation groups was described by the first author in [6], and its algebraic properties were studied in [7]. In this paper we describe two possible approaches to the construction of new public key cryptosystems with message s...

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Veröffentlicht in:	Journal of cryptology 2002-09, Vol.15 (4), p.285-297
Hauptverfasser:	MAGLIVERAS, S. S, STINSON, D. R, VAN TRUNG, Tran
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Sprache:	eng
Schlagworte:	Applied sciences Computer systems Cryptography Exact sciences and technology Group theory Information, signal and communications theory Permutations Signal and communications theory Telecommunications and information theory
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container_title	Journal of cryptology
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creator	MAGLIVERAS, S. S STINSON, D. R VAN TRUNG, Tran
description	A symmetric key cryptosystem based on logarithmic signature s for finite permutation groups was described by the first author in [6], and its algebraic properties were studied in [7]. In this paper we describe two possible approaches to the construction of new public key cryptosystems with message space a large finite group G , using logarithmic signature s and their generalizations. The first approach relies on the fact that permutations of the message space G induced by transversal logarithmic signature s almost always generate the full symmetric group SG on the message space. The second approach could potentially lead to new ElGamal-like systems based on trapdoor, one-way functions induced by logarithmic signature -like objects we call meshes , which are uniform covers for G .
doi_str_mv	10.1007/s00145-001-0018-3
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title	New approaches to designing public key cryptosystems using one-way functions and trapdoors in finite groups
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