A novel image encryption algorithm based on DNA strand exchange and diffusion

•We propose an ITDCCML, which has better kinetic properties than CCML and TDCCML.•The positions and values of pixels are altered through DNA strand exchange.•According to Watson-Crick base pairing property, DNA strand diffusion is implemented as conditional diffusion, which can enhance the security...

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Vydáno v:Applied mathematics and computation Ročník 430; s. 127291
Hlavní autoři: Zou, Chengye, Wang, Xingyuan, Zhou, Changjun, Xu, Shujuan, Huang, Chun
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Inc 01.10.2022
Témata:
Cross coupled map lattice
DNA coding
DNA strand
Encryption algorithm
Encryption algorithm
DNA coding
DNA strand
Cross coupled map lattice
ISSN:0096-3003
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Tagy: Přidat tag
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Abstract •We propose an ITDCCML, which has better kinetic properties than CCML and TDCCML.•The positions and values of pixels are altered through DNA strand exchange.•According to Watson-Crick base pairing property, DNA strand diffusion is implemented as conditional diffusion, which can enhance the security of encryption algorithm effectively. This article proposes an improved tent-dynamic cross coupled map lattice, which has superior ergodicity, broader chaotic range and higher information entropies than cross coupled map lattice and tent-dynamic cross coupled map lattice, and has high suitability for chaos-based image encryption algorithm. Traditional encryption scheme has two significant stages, including image confusion and diffusion. Our encryption algorithm utilizes DNA coding and sequences to construct short DNA strand and long DNA strand, where short DNA strand is used for DNA strand exchange, and long DNA strand is used for DNA strand diffusion. Compared to general image confusion, DNA strand exchange permutates parts of two diverse DNA strands, where the length of exchange is uncertain. Compared to image diffusion, DNA strand diffusion is divided into two categories according to Watson-Crick base pairing property, and different category applies diverse DNA computation operation. Through security analysis and statistical analysis, our encryption scheme can resist different attacks. Experimental results confirm that the proposed algorithm has a high degree of security and the excellent efficiency.
AbstractList •We propose an ITDCCML, which has better kinetic properties than CCML and TDCCML.•The positions and values of pixels are altered through DNA strand exchange.•According to Watson-Crick base pairing property, DNA strand diffusion is implemented as conditional diffusion, which can enhance the security of encryption algorithm effectively. This article proposes an improved tent-dynamic cross coupled map lattice, which has superior ergodicity, broader chaotic range and higher information entropies than cross coupled map lattice and tent-dynamic cross coupled map lattice, and has high suitability for chaos-based image encryption algorithm. Traditional encryption scheme has two significant stages, including image confusion and diffusion. Our encryption algorithm utilizes DNA coding and sequences to construct short DNA strand and long DNA strand, where short DNA strand is used for DNA strand exchange, and long DNA strand is used for DNA strand diffusion. Compared to general image confusion, DNA strand exchange permutates parts of two diverse DNA strands, where the length of exchange is uncertain. Compared to image diffusion, DNA strand diffusion is divided into two categories according to Watson-Crick base pairing property, and different category applies diverse DNA computation operation. Through security analysis and statistical analysis, our encryption scheme can resist different attacks. Experimental results confirm that the proposed algorithm has a high degree of security and the excellent efficiency.
ArticleNumber 127291
Author Wang, Xingyuan
Xu, Shujuan
Zou, Chengye
Huang, Chun
Zhou, Changjun
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  surname: Xu
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  fullname: Huang, Chun
  organization: College of Electrical and Electronic Engineering, Zhengzhou University of Light Industry, Zhengzhou, 450002, China
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Keywords Encryption algorithm
DNA coding
DNA strand
Cross coupled map lattice
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Snippet •We propose an ITDCCML, which has better kinetic properties than CCML and TDCCML.•The positions and values of pixels are altered through DNA strand...
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StartPage 127291
SubjectTerms Cross coupled map lattice
DNA coding
DNA strand
Encryption algorithm
Title A novel image encryption algorithm based on DNA strand exchange and diffusion
URI https://dx.doi.org/10.1016/j.amc.2022.127291
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