Novel design of cryptosystems for video/audio streaming via dynamic synchronized chaos-based random keys

Springer Science and Business Media LLC - 2022
Chih‐Hsueh Lin1, Guo-Hsin Hu1, Jie‐Sheng Chen2, Jun Juh Yan2, Kuang-Hui Tang2
1Department of Electronic Engineering, National Kaohsiung University of Science and Technology, Kaohsiung, 80778, Taiwan
2Department of Electronic Engineering, National Chin-Yi University of Technology, Taichung, 41107, Taiwan

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Tài liệu tham khảo

Saha, R., Geetha, G., Kumar, G., Kim, T.H.: RK-AES: An improved version of AES using a new key generation process with random keys. Secur. Commun. Netw. 2018, 11 (2018)

Arute, F., Arya, K., Martinis, J.M.: Quantum supremacy using a programmable superconducting processor. Nature 574: 505–510. (2019). https://www.nature.com/articles/s41586-019-1666-5

Rössler, O.E.: An equation for hyperchaos. Phys. Lett. A 71(2–3), 155–157 (1979)

Kim, S., Lee, B., Kim, D.H.: Experiments on chaos synchronization in two separate erbium-doped fiber lasers. IEEE Photonics Technol. Lett. 13(4), 290–292 (2001)

Liu, S., Jiang, N., Zhao, A., Zhang, Y., Qiu, K.: Secure optical communication based on cluster chaos synchronization in semiconductor Lasers Network. IEEE Access 8, 11872–11879 (2020)

Jun, B., Kocher, P.: Intel random number generator. Cryptography Research Inc. white paper, Cryptography Research, Inc. and Intel Corporation,State of California, USA (1999)

Kadam, M., Siddamal, S.V.: Annigeri S Design and implementation of chaotic non-deterministic random seed-based hybrid true random number generator. In: 2020 24th International Symposium on VLSI Design and Test (VDAT). (2020)

Rukhin, A., Soto, J., Nechvatal, J., Smid, M., Barker, E., Leigh, S., Levenson, M., Vangel, M., Banks, D., Heckert, A., Dray, J., Vo, S.: A statistical test suite for random and pseudorandom number generators for cryptographic applications, pp 800–822. NIST Special Publication, USA (2010)

Ahmed, R.E.: Efficient pseudo-random number generators for wireless sensor networks. In: 2016 IEEE 59th International Midwest Symposium on Circuits and Systems (MWSCAS). (2017). https://doi.org/10.1109/MWSCAS.2016.7869989

Abutaha, M., Assad, S.E., Jallouli, O., Queudet, A., Deforges, O.: Design of a pseudo-chaotic number generator as a random number generator. In: 2016 International Conference on Communications (COMM). (2016). https://doi.org/10.1109/ICComm.2016.7528291

Ott, E., Grebogi, C., Yorke, J.A.: Controlling chaos. Phys Rev Lett 64(11), 1196–1199 (1990)

Pecora, L.M., Carroll, T.L.: Synchronization in chaotic systems. Phys Rev Lett 64(8), 821–824 (1990)

Li, Y., Zhao, Y., Yao, Z.A.: Chaotic control andgeneralized synchronization for a hyperchaotic lorenz-stenflo system. Abstr. Appl. Anal. (2013). https://doi.org/10.1155/2013/515106

Kai, G., Zhang, W., Wei, Z.C., Wang, J.F., Akgul, A.: Hopf bifurcation, positively invariant set, and physical realization of a New four-dimensional hyperchaotic financial system. Math. Probl. Eng. (2013). https://doi.org/10.1155/2017/2490580

Daryabor, A., Momeni, H.R.: A sliding mode observer approach to chaos synchronization. In: 2008 International Conference on Control, Automation and Systems. (2008). https://doi.org/10.1109/ICCAS.2008.4694492

Panikhom, S.: Implementation of chaos control in Chua's circuit via sliding mode control. 2017 International Electrical Engineering Congress (iEECON) 2017. (2017). https://doi.org/10.1109/IEECON.2017.8075916

Bryson, A.E.: Optimal control-1950 to 1985. IEEE Control Syst. Mag. 16(3), 26–33 (1996)

Chen, G.: A simple adaptive feedback control method for chaos and hyper-chaos control. Appl. Math. Comput. 217(17), 7258–7264 (2011)

Pai, M.C.: Global synchronization of uncertain chaotic systems via discrete-time sliding mode control. Appl. Math. Comput. 227, 663–671 (2014)

Kuo, C.L.: Design of a fuzzy sliding-mode synchronization controller for two different chaos systems. Comput. Math. Appl. 61(8), 2090–2095 (2011)

Xavier, J.C., Rech, P.C.: Regular and chaotic dynamics of the Lorenz-Stenflo system. Int.l Journal of Bifurc. Chaos 20(1), 145–152 (2010)

Chen, Y.M., Liang, H.H.: Zero-zero-Hopf bifurcation and ultimate bound estimation of a generalized Lorenz-Stenflo hyperchaotic system. Math. Method Appl. Sci 40, 3424–3432 (2017)

Young, K.D., Utkin, V.I., Ozguner, U.: A control engineer’s guide to sliding mode control. IEEE Trans. Control Syst. Technol. 7(3), 328–342 (1999)

Dworkin, M.J.: SHA-3 standard: permutation-based hash and extendable-output functions. FIPS PUB 202, USA (2015)

Dworkin, M.J., Barker, E.B., Nechvatal, J.R., Foti, J., Bassham, L.E., Roback, E., Dray, J.F.J.: Announcing the advanced encryption standard (AES). NIST FIPS 197. (2001). https://www.nist.gov/publications/advanced-encryption-standard-aes

Samet, H., Tamminen, M.: Efficient component labeling of images of arbitrary dimension represented by linear bintrees. IEEE Trans. Pattern Anal. Mach. Intell. 10(4), 579–586 (1988)

Dillencourt, M.B., Samet, H., Tamminen, M.: A general approach to connected-component labeling for arbitrary image representations. J. ACM 39(2), 253–280 (1992)

Wu, W., Huang, Y., Kurachi, R., Zeng, G., Xie, G., Li, R., Li, K.: Sliding window optimized information entropy analysis method for intrusion detection on in-vehicle networks. IEEE Access 6, 45233–45245 (2018)

Ozdemir, A., Pehlivan, I., Akgul, A., Guleryuz, E.: A strange novel chaotic system with fully golden proportion equilibria and its mobile microcomputer-based RNG application. Chin. J. Phys. 56(6), 2852–2864 (2018)

Lai, Q., Wan, Z., Akgul, A., Boyraz, O.F., Yildiz, M.Z.: Design and implementation of a new memristive chaotic system with application in touchless fingerprint encryption. Chin. J. Phys. 67, 615–630 (2020)

Zhang, Y.Q., Wang, X.Y.: A symmetric image encryption algorithm based on mixed linear–nonlinear coupled map lattice. Inf. Sci. 273, 329–351 (2014)

Tang, Z., Yang, Y., Xu, S., Yu, C., Zhang, X.: Image encryption with double spiral scans and chaotic maps. Security and Communication Networks 2019, 15 (2019)

Zhang, W., Wong, K.W., Yu, H., Zhu, Z.L.: An image encryption scheme using reverse 2-dimensional chaotic map and dependent diffusion. Commun. Nonlinear Sci. Numer. Simul. 18(8), 2066–2080 (2013)

Lin, R.M., Ng, T.Y.: Secure image encryption based on an ideal new nonlinear discrete dynamical system. Math. Probl. Eng. 2018, 12 (2018)

Lin, J., Luo, Y., Liu, J., Bi, J., Qiu, S., Cen, M., Liao, Z.: An image compression-encryption algorithm based on cellular neural network and compressive sensing. In: 2018 3rd IEEE International Conference on Image, Vision and Computing (ICIVC). (2018).

Tsai, D.Y., Lee, Y., Matsuyama, E.: Information entropy measure for evaluation of image quality. J. Digit. Imaging 21(3), 338–347 (2008)

Ferdush, J., Begum, M., Uddin, M.S.: Chaotic lightweight cryptosystem for image encryption. Adv. Multimed. 2021, 16 (2021)

Lin, C.Y., Wu, J.L.: Cryptanalysis and improvement of a chaotic map-based image encryption system using both plaintext related permutation and diffusion. Entropy 22(5), 589 (2020)

Gupta, M., Gupta, K.K., Shukla, P.K.: Session key based fast, secure and lightweight image encryption algorithm. Multimed. Tools Appl.s 80, 10391–10416 (2020)

Liu, H., Zhao, B., Zou, J., Huang, L., Liu, Y.: A lightweight image encryption algorithm based on message passing and chaotic map. Secur. Commun. Netw. 2020, 12 (2020)

Zheng, J., Luo, Z., Tang, Z.: An image encryption algorithm based on multichaotic system and DNA coding. Discret. Dyn. Nat. Soc. 2020, 16 (2020)

Patro, K.A.K., Acharya, B., Nath, V.: A secure multi-stage one-round bit-plane permutation operation based chaotic image encryption. Microsyst. Technol. 25(6), 2331–2338 (2019)

Bisht, A., Dua, M., Dua, S., Jaroli, P.: A color image encryption technique based on bit-level permutation and alternate logisticmaps. J. Intell. Syst. 342, 1–15 (2019)

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