Journal of King Saud University: Computer and Information Sciences (Oct 2023)
Integrated dual hyperchaotic and Josephus traversing based 3D confusion-diffusion pattern for image encryption
Abstract
This paper introduces an enhanced image encryption technique that relies on 3D confusion and diffusion patterns, aiming to achieve maximum performance in terms of confusion and diffusion. The proposed encryption method combines four phases: dual hyperchaotic, improved logistic map (ILM), Josephus traversing, and a hash function. The first and second phases utilize improved Chen and Lorentz systems-based 3D patterns to enhance confusion and diffusion. In the third phase, bit-plane permutations are performed through Josephus traversing in three directions: x, y, and z. Lastly, the fourth phase implements diffusion based on ILM to optimize encryption performance. The integration of a hash function in this method serves to heighten key sensitivity. The test results demonstrate the method's exceptional performance across various analyses, including statistical, differential, brute-force, and NIST test suite assessments. Additionally, the proposed method outperforms previous approaches significantly, as indicated by the majority assessment.
