ABSTRACT
A chaos-based security algorithm for images using symmetric keys is presented in this work. The chaotic 3D intertwining logistic map (ILM) is employed in a compact and efficacious way in the proposed work. The three chaotic sequences generated by the 3D ILM are utilized in an effective way to confuse and diffuse the original image and form an encrypted image. The dependency of initial key values and the controlling parameters of the 3D ILM on the plain image and 128-bit key stream are promising features. These features significantly increase the security of the proposed encryption method. The simulation outcomes and comparative findings with the existing schemes are favourable and satisfactory, thus support the performance and reliability of the suggested encryption system. In addition, the advantageous and acceptable results of theoretical value tests, key sensitivity results and high key space help to counter different kinds of attacks such as statistical, differential and exhaustive attacks.
Acknowledgements
Authors are extremely grateful to the editors and the anonymous reviewers for their valuable comments and suggestions in improving the overall quality of paper.
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Additional information
Notes on contributors
Manzoor A. Lone
Manzoor Ahmad Lone is presently enrolled as sponsored research scholar in Computer Science and Engineering department, NIT, Srinagar (J&K), India. His research interests are Image processing, Image Encryption and Chaos theory.
Shaima Qureshi
Dr. Shaima Qureshi is working as an Associate Professor in the Computer Science and Engineering department, NIT, Srinagar (J&K), India. Her areas of research include Mobile Networks, Algorithms, Machine learning and Image Encryption.