Abstract
A number of techniques for securing plaintext, images and video frames have been developed in cryptography using jointly DNA computing and Chaos Theory. With the advancement of DNA/quantum computing, the threats of security breaches to information have an increasing possibility. In this paper, we propose a symmetric encryption algorithm for color images by extending the current encryption/decryption techniques. Our encryption algorithm is based on three chaotic systems (PWLCM, Lorenz and 4D Lorenz-type), a Secure Hash Algorithm, a scrambler, a chaotic generator and DNA sequence based Linear Feedback Shift Register. We introduce multilevel security to increase the degree of diffusion and confusion. Through experiments, we present security analysis for key irreproducibility and sensitivity, Gray Level Co-occurrence Matrix based analysis, maximum deviation, irregular deviation, entropy, histogram, variance and correlation, number of pixel change rate, unified average cipher intensity, known/chosen-plaintext attacks, mean absolute error, robustness against noises of various types using PSNR and occlusion attacks. It is demonstrated that mostly our proposed encryption algorithm has enhanced performance as compared to contemporary works in information security, while comparable in other cases.
Highlights
The significance of information security is increasing with digitization
PROPOSED ALGORITHM We propose a symmetric key DNA extended chaotic encryption algorithm, hereafter called SDC-Encryption (SHA DNA Chaotic Encryption) that aims at improving the information security
For AVG within 0-50, MD5 is chosen, within 51-100, SHA-1 is chosen, (5) is the third hyperchaotic system that we considered in this paper
Summary
The significance of information security is increasing with digitization. Cryptography plays a vital role in confidentiality, integrity and availability of information. The digital security stakes are higher than ever. DNA (Deoxyribo Nucleic Acid) and chaotic system based joint cryptography is an emerging area due to achieving new levels of security, especially that of color images and videos. In order to effectively and efficiently utilize the security as provided by this joint cryptography, its understanding is an emergent and open challenge. This paper undertakes this research case for the security of color images. Their richness of colors renders them as a popular choice for capturing realistic expressions, whether they are natural scenes or artifacts. Security concern of color images is highly desired for
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