A one-way function based on norm form equations

It has long been known that cryptographic schemes offering provably unbreakable security exist, namely the One Time Pad (OTP). The OTP, however, comes at the cost of a very long secret key - as long as the plain-text itself. In this paper we propose an encryption scheme which we (boldly) claim offers the same level of security as the OTP, while allowing for much shorter keys, of size polylogarithmic in the computing power available to the adversary. The Scheme requires a large sequence of truly random words, of length polynomial in the both plain-text size and the logarithm of the computing power the adversary has. We claim that it ensures such an attacker cannot discern the cipher output from random data, except with small probability. We also show how it can be adapted to allow for several plain-texts to be encrypted in the same cipher output, with almost independent keys. Also, we describe how it can be used in lieu of a One Way Function.

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The Resolution of Norm Form Equations

Diophantine Equations and Power Integral Bases ◽

10.1007/978-3-030-23865-0_6 ◽

2019 ◽

pp. 81-92

Author(s):

István Gaál

Keyword(s):

Norm Form

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Continued Fractions, Jacobi Symbols, and Quadratic Diophantine Equations

Canadian Mathematical Bulletin ◽

10.4153/cmb-2000-029-8 ◽

2000 ◽

Vol 43 (2) ◽

pp. 218-225 ◽

Cited By ~ 2

Author(s):

R. A. Mollin ◽

A. J. van der Poorten

Keyword(s):

Continued Fractions ◽

Diophantine Equations ◽

Norm Form

AbstractThe results herein continue observations on norm form equations and continued fractions begun and continued in the works [1]−[3], and [5]−[6].

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MPF Problem over Modified Medial Semigroup Is NP-Complete

Symmetry ◽

10.3390/sym10110571 ◽

2018 ◽

Vol 10 (11) ◽

pp. 571 ◽

Cited By ~ 4

Author(s):

Eligijus Sakalauskas ◽

Aleksejus Mihalkovich

Keyword(s):

Power Function ◽

Polynomial Time ◽

Cryptographic Protocols ◽

Binary Field ◽

Dual Interpretation ◽

Np Complete ◽

Matrix Power ◽

Necessary Constraints ◽

One Way Function ◽

Polynomial Time Reduction

This paper is a continuation of our previous publication of enhanced matrix power function (MPF) as a conjectured one-way function. We are considering a problem introduced in our previous paper and prove that tis problem is NP-Complete. The proof is based on the dual interpretation of well known multivariate quadratic (MQ) problem defined over the binary field as a system of MQ equations, and as a general satisfiability (GSAT) problem. Due to this interpretation the necessary constraints to MPF function for cryptographic protocols construction can be added to initial GSAT problem. Then it is proved that obtained GSAT problem is NP-Complete using Schaefer dichotomy theorem. Referencing to this result, GSAT problem by polynomial-time reduction is reduced to the sub-problem of enhanced MPF, hence the latter is NP-Complete as well.

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