A RGB image encryption technique using chaotic maps of fractional variable-order based on DNA encoding.

This paper presents a controller-based synchronization scheme in a leader-follower architecture for chaotic maps of fractional variable-order. The proposed scheme demonstrates successful synchronization of three different chaotic maps through simulation results. The implementation on Arduino UNO boards is used to showcase the relatively low algorithm complexity of the proposed scheme. Additionally, the paper explores a potential application of the proposed scheme in an RGB image encryption system, leveraging the chaotic behavior of the system for pseudo-random sequence generation. The encoding scheme utilizes the complementary property of Deoxyribonucleic acid (DNA) molecule bases. The presented encryption scheme employs the variable-order of the fractional derivative as a key for improved safety. This enhancement improves the methodology resistance against brute-force attacks while maintaining resilience against other cryptoanalysis techniques. • We present a controller-based synchronization scheme. • The proposed scheme demonstrates successful synchronization of chaotic maps. • We implemented the algorithm on Arduino UNO boards. • We explore a potential application in an RGB image encryption system. • The encoding scheme utilizes the Deoxyribonucleic acid (DNA) molecule bases. [ABSTRACT FROM AUTHOR]