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A New Chaos-Based Image Encryption Algorithm Based on Discrete Fourier Transform and Improved Joseph Traversal

Mingxu Wang, Xianping Fu, Xiaopeng Yan, Lin Teng

2024Mathematics30 citationsDOIOpen Access PDF

Abstract

To further enhance the security of image encryption, a new chaos-based image encryption algorithm (IEA) based on discrete Fourier transform and Joseph traversal is proposed to encrypt the plain image in both the frequency domain and space domain simultaneously. In the proposed IEA, the logistic map is used to generate the appropriate chaotic sequence, and the improved Joseph traversal is used to scramble the image in different starting positions and variable step sizes. Then, block diffusion is performed at the end. The main finding concerning the proposed IEA is that the combination of discrete Fourier transform and Joseph traversal can enhance the security of the image information, which has been validated by measuring the performance in resisting the common types of attacks.

Topics & Concepts

Tree traversalEncryptionAlgorithmChaoticImage (mathematics)Discrete Fourier transform (general)CHAOS (operating system)Block (permutation group theory)Fourier transformLogistic mapComputer scienceDiscrete Hartley transformMathematicsFractional Fourier transformTheoretical computer scienceArtificial intelligenceFourier analysisComputer securityMathematical analysisGeometryChaos-based Image/Signal EncryptionAdvanced Steganography and Watermarking TechniquesChaos control and synchronization
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