SeaSign에 대한 효율적인 서명 방법 및 최적 파라미터 제안 연구

Vol. 34, No. 2, pp. 167-177, 4월. 2024
10.13089/JKIISC.2024.34.2.167, Full Text:
Keywords: Post-Quantum Cryptography, isogeny-based cryptography, SeaSign, rejection samploing, CSIDH
Abstract

This paper proposes optimization techniques for SeaSign, an isogeny-based digital signature algorithm. SeaSign combines class group actions of CSIDH with the Fiat-Shamir with abort. While CSIDH-based algorithms have regained attention due to polynomial time attacks for SIDH-based algorithms, SeaSiogn has not undergone significat optimization because of its inefficiency. In this paper, an efficient signing method for SeaSign is proposed. The proposed signing method is simple yet powerful, achived by repositioning the rejection sampling within the algorithm. Additionally, this paper presnts parameters that can provide optimal performance for the proposed algorithm. As a result, by using the original parameters of SeaSign, the proposed method is three times faster than the original SeaSign. Additonally, combining the newly suggested parameters with the signing method proposed in this paper yields a performance that is 290 times faster than the original SeaSign and 7.47 times faster than the method proposed by Decru et al.

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Cite this article
[IEEE Style]
김수리, "A Study on Efficient Signing Methods and Optimal Parameters Proposal for SeaSign Implementation," Journal of The Korea Institute of Information Security and Cryptology, vol. 34, no. 2, pp. 167-177, 2024. DOI: 10.13089/JKIISC.2024.34.2.167.

[ACM Style]
김수리. 2024. A Study on Efficient Signing Methods and Optimal Parameters Proposal for SeaSign Implementation. Journal of The Korea Institute of Information Security and Cryptology, 34, 2, (2024), 167-177. DOI: 10.13089/JKIISC.2024.34.2.167.