A new image encryption method based on memristive hyperchaos

Abstract

This paper reports an effective image encryption method based on a novel two-dimensional memristive-coupled hyperchaotic Sine map. The performance analysis shows that the proposed map is easier to form hyperchaotic phenomenon in multiple parameter regions than some existing chaotic maps, and is suitable for image encryption. The new image encryption algorithm contains permutation and diffusion processes. The permutation process can make the pixel arrangement of the digital image disorderly, and the diffusion process can propagate small changes from the original image to the entire cipher-image with the help of a new bit-based double-loop-shift exclusive-OR (XOR) mechanism. The encryption and decryption effects are numerically investigated, and the security of the proposed algorithm is fully evaluated. Performance evaluations demonstrate that the proposed algorithm has well key sensitivity and robustness, and it has several advantages in terms of information entropy, correlation coefficient and the ability of defending differential attack, compared with the related algorithms.