Litcius/Paper detail

A Color Image-Encryption Algorithm Using Extended DNA Coding and Zig-Zag Transform Based on a Fractional-Order Laser System

Fanqi Meng, Zhenglan Gu

2023Fractal and Fractional27 citationsDOIOpen Access PDF

Abstract

With the advancement of information technology, the security of digital images has become increasingly important. To ensure the integrity of images, a novel color image-encryption algorithm based on extended DNA coding, Zig-Zag transform, and a fractional-order laser system is proposed in this paper. First, the dynamic characteristics of the fractional-order laser chaotic system (FLCS) were analyzed using a phase diagram and Lyapunov exponent spectra. The chaotic sequences generated by the system were used to design image-encryption algorithms. Second, a modified Zig-Zag confusing method was adopted to confuse the image. Finally, in the diffusion link, the DNA encoding scheme was extended to allow for a greater number of DNA encoding rules, increasing the randomness of the matrix and improving the security of the encryption scheme. The performance of the designed encryption algorithm is analyzed using key space, a histogram, information entropy, correlation coefficients, differential attack, and robustness analysis. The experimental results demonstrate that the algorithm can withstand multiple decryption methods and has strong encryption capability. The proposed novel color image-encryption scheme enables secure communication of digital images.

Topics & Concepts

EncryptionAlgorithmKey spaceComputer scienceProbabilistic encryptionChaoticFractional-order systemTheoretical computer scienceMathematicsComputer visionArtificial intelligenceComputer networkFractional calculusApplied mathematicsChaos-based Image/Signal EncryptionFractal and DNA sequence analysisAdvanced Steganography and Watermarking Techniques