Abstract
In this chapter, a combined Pseudo Hadamard transformation and modified Gingerbreadman chaotic substitution based image encryption algorithm is proposed. Intrinsic properties of images such as high inter-pixel redundancy and bulk data capacity, encryption is done in two stages: transformation and substitution. Pseudo Hadamard transformation reduces correlation between the adjacent elements in the host image and entropy is increased by subjecting it to modified Gingerbreadman chaotic substitution. The initial conditions for modified Gingerbreadman chaotic generator is considered from 128 bits secrete key. The random sequence generated by modified Gingerbreadman chaotic generator is introduced in the substitution stage of encryption process to diffuse the pixel values of cipher image after transformation. The cipher images are subjected for various security analysis and the results obtained are better compared to many existing techniques.
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References
Chuman, T., Sirichotedumrong, W., Kiya, H.: Encryption-then-compression systems using grayscale-based image encryption for JPEG images. IEEE Trans. Inf. Forensics Secur. 14(6), 1515–1525 (2019)
Wang, X., Zhu, X., Zhang, Y.: An image encryption algorithm based on Josephus traversing and mixed chaotic map. IEEE Access Lett. 6, 23733–23746 (2018)
Mao, Y., Wu, M.: A joint signal processing and cryptographic approach to multimedia encryption. IEEE Trans. Image Process. 15(7), 2061–2075 (2006)
Hua, Z., Jin, F., Xu, B., Huang, H., Setti, G.: 2D logistic-sine coupling map for image encryption. Sig. Process. 149, 148–161 (2018)
Lan, R., He, J., Wang, S., Gu, T., Luo, X.: Integrated chaotic systems for image encryption. Sig. Process. 147, 133–145 (2018)
Li, C.-L., Li, H.-M., Li, F.-D., Wei, D.-Q., Yang, X.-B., Zhang, J.: Multiple-image encryption by using robust chaotic map in wavelet transform domain. Int. J. Light Electron. Opt. 171, 276–286 (2018)
Hua, Z., Zhou, Y., Huang, H.: Cosine-transform-based chaotic system for image encryption. Inf. Sci. 480, 403–419 (2019)
Ahmad, J., Hwang, S.O.: A secure image encryption scheme based on chaotic maps and affine transformation. Multimed. Tools Appl. 75(21), 13951–13976 (2015)
Anees, A., Siddiqui, A.M., Ahmed, F.: Chaotic substitution for highly autocorrelated data in encryption algorithm. Commun. Nonlinear Sci. Numer. Simul. 19(9), 3106–3118 (2014)
Prajwalasimha, S.N., Basavaraj, L.: Performance Analysis of Transformation and Bogdonov Chaotic Substitution based Image Cryptosystem. Int. J. Electr. Comput. Eng. 10(1), 188–194 (2020)
Prajwalasimha, S.N., Basavaraj, L.: Design and Implementation of Transformation and non-Chaotic Substitution based Image Cryptosystem. Int. J. Eng. Adv. Technol. 8(6), 1079–1083 (2019)
Prajwalasimha, S.N., Kumar, A.V., Arpitha, C.R., Swathi, S., Spoorthi, B.: On the Sanctuary of a Combined Confusion and Diffusion based scheme for Image Encryption. Int. J. Eng. Adv. Technol. 9(1), 3258–3263 (2019)
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Prajwalasimha, S.N., Sidramappa, Kavya, S.R., Hema, A.S., Anusha, H.C. (2020). Modified Gingerbreadman Chaotic Substitution and Transformation Based Image Encryption. In: Smys, S., Tavares, J., Balas, V., Iliyasu, A. (eds) Computational Vision and Bio-Inspired Computing. ICCVBIC 2019. Advances in Intelligent Systems and Computing, vol 1108. Springer, Cham. https://doi.org/10.1007/978-3-030-37218-7_69
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DOI: https://doi.org/10.1007/978-3-030-37218-7_69
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