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Multiple-image encryption algorithm based on genetic central dogma

Xiaoqiang Zhang, Jingxi Tian

2022Physica Scripta22 citationsDOI

Abstract

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.

Topics & Concepts

EncryptionAlgorithmComputer scienceDecoding methodsPermutation (music)Genetic algorithmImage (mathematics)ENCODEMatrix (chemical analysis)Transmission (telecommunications)Bit planeBit (key)Binary numberRank (graph theory)Computer visionTheoretical computer scienceArtificial intelligenceMathematicsGeneArithmeticPhysicsGeneticsComputer networkBiologyBit fieldCombinatoricsEcologyAcousticsMaterials scienceComposite materialTelecommunicationsType (biology)Machine learningChaos-based Image/Signal EncryptionDNA and Biological ComputingAdvanced Steganography and Watermarking Techniques
Multiple-image encryption algorithm based on genetic central dogma | Litcius