Cryptanalysis and Improvement of a Chaotic Map-Based Image Encryption System Using Both Plaintext Related Permutation and Diffusion
Cheng-Yi Lin, Ja‐Ling Wu
Abstract
In theory, high key and high plaintext sensitivities are a must for a cryptosystem to resist the chosen/known plaintext and the differential attacks. High plaintext sensitivity can be achieved by ensuring that each encrypted result is plaintext-dependent. In this work, we make detailed cryptanalysis on a published chaotic map-based image encryption system, where the encryption process is plaintext Image dependent. We show that some designing flaws make the published cryptosystem vulnerable to chosen-plaintext attack, and we then proposed an enhanced algorithm to overcome those flaws.
Topics & Concepts
Plaintext-aware encryptionPlaintextCryptanalysisDeterministic encryptionEncryptionCryptosystemComputer scienceTheoretical computer scienceHybrid cryptosystemWatermarking attackCiphertext indistinguishabilityChaoticAlgorithmProbabilistic encryptionLinear cryptanalysisComputer securityArtificial intelligenceChaos-based Image/Signal EncryptionCryptographic Implementations and SecurityMathematical Dynamics and Fractals