Abstract
The rapid development of digital image transmission technology requires a more secure and effective image encryption scheme to provide the necessary security. This paper introduces an improved sine-transform-based chaotic system (ISTBCS). By linearly weighting and nonlinearly multiplying the selected classic maps, the new chaotic maps with more complex dynamics are obtained through sinusoidal transformation. Performance evaluation shows that it has chaotic characteristics such as wide range of chaos, high complexity, and strong non-periodicity. On this basis, an image encryption algorithm that uses bidirectional pixel encoding, displacement and diffusion at the same time is designed. By pixel encoding the plaintext, the small changes in the ordinary image can be propagated to all the pixels of the encrypted image, which greatly improves the ability to resist known plaintext attacks and selected plaintext attacks. Simulation results and performance analysis show that the algorithm has a large key space, strong key sensitivity, strong performance to make the structural data correlation disappear, and then can increase the entropy, has good anti attack ability, and can effectively meet the needs of image encryption.
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This work is financially supported by National Natural Science Foundation of China (No. 61072079/61461053).
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Tang, J., Bao, L., Ding, H., Guan, Z., He, M. (2021). An Improved Digital Image Encryption Algorithm Based on Sine Compound Chaotic System. In: Peng, Y., Hu, SM., Gabbouj, M., Zhou, K., Elad, M., Xu, K. (eds) Image and Graphics. ICIG 2021. Lecture Notes in Computer Science(), vol 12888. Springer, Cham. https://doi.org/10.1007/978-3-030-87355-4_56
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DOI: https://doi.org/10.1007/978-3-030-87355-4_56
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