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Article type: Research Article
Authors: Wroński, Michał; * | Kijko, Tomasz | Dryło, Robert
Affiliations: Faculty of Cybernetics, Military University of Technology in Warsaw, Kaliskiego 2, 00-908 Warsaw, Poland. [email protected], [email protected], [email protected]
Correspondence: [*] Address for correspondence: Kaliskiego 2, 00-908 Warsaw, Poland.
Abstract: This paper presents method for obtaining high-degree compression functions using natural symmetries in a given model of an elliptic curve. Such symmetries may be found using symmetry of involution [–1] and symmetry of translation morphism τT = P + T, where T is the n-torsion point which naturally belongs to the E(𝕂) for a given elliptic curve model. We will study alternative models of elliptic curves with points of order 2 and 4, and specifically Huff’s curves and the Hessian family of elliptic curves (like Hessian, twisted Hessian and generalized Hessian curves) with a point of order 3. We bring up some known compression functions on those models and present new ones as well. For (almost) every presented compression function, differential addition and point doubling formulas are shown. As in the case of high-degree compression functions manual investigation of differential addition and doubling formulas is very difficult, we came up with a Magma program which relies on the Gröbner basis. We prove that if for a model E of an elliptic curve exists an isomorphism φ : E → EM, where EM is the Montgomery curve and for any P ∈ E(𝕂) holds that φ(P) = (φx(P), φy(P)), then for a model E one may find compression function of degree 2. Moreover, one may find, defined for this compression function, differential addition and doubling formulas of the same efficiency as Montgomery’s. However, it seems that for the family of elliptic curves having a natural point of order 3, compression functions of the same efficiency do not exist.
Keywords: alternative models of elliptic curves, compression on elliptic curves
DOI: 10.3233/FI-2021-2094
Journal: Fundamenta Informaticae, vol. 184, no. 2, pp. 107-139, 2021
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