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Multiple-image encryption algorithm based on genetic central dogma

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A large number of images are generated and distributed in various fields every day. To protect the image information from being stolen during the network transmission, this paper proposes a… Click to show full abstract

A large number of images are generated and distributed in various fields every day. To protect the image information from being stolen during the network transmission, this paper proposes a multiple-image encryption algorithm based on genetic central dogma and three-dimensional (3D) bit planes. This paper simulates the genetic central dogma and defines the 3D bit planes. Firstly, k original images are transformed into 8-bit binary and converted into a 3D matrix; secondly, the 3D matrix is permutated by rotating the bit plane and performing permutation among the bit planes; thirdly, we encode the scrambled 3D matrix into DNA codes. The diffusion is realized by imitating the genetic central dogma and introducing RNA mutations; finally, the encrypted images are obtained by the RNA decoding operation. Experimental results and algorithm analyses indicate that the proposed algorithm has strong security and desirable performance.

Keywords: image encryption; central dogma; genetic central; multiple image

Journal Title: Physica Scripta
Year Published: 2022

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