Image Encryption Using Elliptic Curves and Rossby/Drift Wave Triads
Abstract
We propose an image encryption scheme based on quasi-resonant Rossby/drift wave triads (related to elliptic surfaces) and Mordell elliptic curves (MECs). By defining a total order on quasi-resonant triads, at a first stage we construct quasi-resonant triads using auxiliary parameters of elliptic surfaces in order to generate pseudo-random numbers. At a second stage, we employ an MEC to construct a dynamic substitution box (S-box) for the plain image. The generated pseudo-random numbers and S-box are used to provide diffusion and confusion, respectively, in the tested image. We test the proposed scheme against well-known attacks by encrypting all gray images taken from the USC-SIPI image database. Our experimental results indicate the high security of the newly developed scheme. Finally, via extensive comparisons we show that the new scheme outperforms other popular schemes.
Cite
@article{arxiv.2003.03394,
title = {Image Encryption Using Elliptic Curves and Rossby/Drift Wave Triads},
author = {Ikram Ullah and Umar Hayat and Miguel D. Bustamante},
journal= {arXiv preprint arXiv:2003.03394},
year = {2020}
}
Comments
Accepted and published version (Entropy 2020, 22, 454)