Litcius/Paper detail

Exploiting Substitution Box for Cryptanalyzing Image Encryption Schemes With DNA Coding and Nonlinear Dynamics

Chengrui Zhang, Junxin Chen, Dongming Chen, Wei Wang, Yushu Zhang, Yicong Zhou

2023IEEE Transactions on Multimedia28 citationsDOI

Abstract

In recent years, a number of image encryption schemes based on DNA coding and nonlinear dynamics have been proposed. Generally, these DNA-based schemes first encode plaintext images into DNA sequences and then encrypt them with pseudorandom elements produced by chaotic systems or other nonlinear dynamics. Although ciphertexts can pass some security tests, many image encryption schemes are being shown to have intrinsic flaws and that they cannot guarantee a high level of security. In this article, we cryptanalyze a family of image encryption schemes for which the encryption kernel is DNA coding or its variant. The complex DNA operation can be simplified as a substitution box (S-box). The whole cryptosystem's security level is thus significantly decreased and is vulnerable to the chosen-plaintext attack. Applications of this concept to break five ciphers are theoretically presented and experimentally verified. In addition, some suggestions for resisting similar attacks are also given in this article.

Topics & Concepts

EncryptionComputer sciencePlaintextProbabilistic encryptionTheoretical computer scienceAlgorithmDNA computingCryptosystemMultiple encryptionCryptographyENCODEComputer networkBiologyGeneBiochemistryComputationChaos-based Image/Signal EncryptionCryptographic Implementations and SecurityCellular Automata and Applications