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2023-07-12
Ravi, Renjith V., Goyal, S. B., Islam, Sardar M N.  2022.  Colour Image Encryption Using Chaotic Trigonometric Map and DNA Coding. 2022 International Conference on Computational Modelling, Simulation and Optimization (ICCMSO). :172—176.
The problem of information privacy has grown more significant in terms of data storage and communication in the 21st century due to the technological explosion during which information has become a highly important strategic resource. The idea of employing DNA cryptography has been highlighted as a potential technology that offers fresh hope for unbreakable algorithms since standard cryptosystems are becoming susceptible to assaults. Due to biological DNA's outstanding energy efficiency, enormous storage capacity, and extensive parallelism, a new branch of cryptography based on DNA computing is developing. There is still more study to be done since this discipline is still in its infancy. This work proposes a DNA encryption strategy based on cryptographic key generation techniques and chaotic diffusion operation.
2021-01-18
Anupadma, S., Dharshini, B. S., Roshini, S., K, J. Singh.  2020.  Random selective block encryption technique for image cryptography using chaotic cryptography. 2020 International Conference on Emerging Trends in Information Technology and Engineering (ic-ETITE). :1–5.
Dynamic random growth technique and a hybrid chaotic map which is proposed in this paper are used to perform block-based image encryption. The plaintext attack can easily crack the cat map, as it is periodic, and therefore cat map securely used in which it can eliminate the cyclical occurrence and withstand the plaintext attack's effect. The diffusion process calculates the intermediate parameters according to the image block. For the generation of the random data stream in the chaotic map, we use an intermediate parameter as an initial parameter. In this way, the generated data stream depends on the plain text image that can withstand the attack on plain text. The experimental results of this process prove that the proposed dynamic random growth technique and a hybrid chaotic map for image encryption is a secured one in which it can be used in secured image transmission systems.