Color image encryption scheme based on quantum random walk and chaotic mapping system

Abstract

In this study, the quantum random walk is used to generate the initial conditions and control parameters of the chaotic mapping system. The R, G, and B channels of the color image are sorted according to the chaotic sequence generated by the Arcsin–Rrccos–Tent chaotic mapping. At the same time, the chaotic sequence generated by the improved logistic chaotic mapping is used to match it with the rules of DNA encoding and decoding. The chaotic sequence generated by the improved Henon chaotic mapping is used to determine the DNA rules and the number of cycles when the image is encrypted and decrypted. The XOR operation is performed by each pixel of the color image and the DNA complementary rule, and the cyclic iterative processing is performed. Extensive experimental results and analysis show that the scheme performs well in protecting image privacy and resisting attacks.