Authors: (1) Dong Jiang, School of Internet, Anhui University, National Engineering Research Center of Agro-Ecological Big Data Analysis and Application, Anhui University & jiangd@nju.edu.cn; (2) Zhen Yuan, School of Internet, Anhui University; (3) Wen-xin Li, School of Internet, Anhui University; (4) Liang-liang Lu, Key Laboratory of Optoelectronic Technology of Jiangsu Province, Nanjing Normal University, National Laboratory of Solid State Microstructures, Nanjing University, Nanjing & lianglianglu@nju.edu.cn. Table of Links Abstract & Introduction Strategy Description Encryption Speed Evaluation Statistical Evaluation Security Analysis Parameter Setup Comparison To Previous Works Conclusions Acknowledgments & References Acknowledgments This work is financially supported by the National Key Research and Development Program of China (2017YFA0303 704), the National Natural Science Foundation of China (12274233, 62273001), the Major Scientific Research Project of Anhui Province (KJ2021ZD0005), the Compiled Scientific Research Plan Project of Anhui Province (2022AH040020), the Outstanding Research and Innovation Team Project of Anhui Province (2022AH010005), the University Collaborative Innovation Project of Anhui Province (GXXT-2021-091). References [1] Pareek NK, Patidar V, Sud KK. Image encryption using chaotic logistic map. Image Vision Comput 2006; 24:926-934. [2] Fang P, Liu H, Wu C, Liu M. A survey of image encryption algorithms based on chaotic systesm. Visual Comput 2022; 2022: 1-29. [3] Zhang Y, Wang B. Optical encryption based on interference. Opt Lett 2008; 33: 2443-2445. [4] Zhang Y, Wang X. A symmetric image encryption algorithm based on mixed linear–nonlinear coupled map lattice. Inform Sciences 2014; 273: 329-351. [5] Tedmori S, AI-Najdawi N. Image cryptographic algorithm based on the Haar wavelet transform. Inform Sci 2014; 269: 21-34. [6] Chai x, Gan Z, Chen Y, Zhang Y. A visually secure image encryption scheme based on compressive sensing. Signal Process 2017; 134:35-51. [7] Luo Y, Zhou R, Liu J, Cao Y, Ding X. A parallel image encryption algorithm based on the piecewise linear chaotic map and hyper-chaotic map. Nonlinear Dynam 2018; 93:1165-1181. [8] Zia U, McCartney M, Scotney B, Martinez J, AbuTair M, Memon J. Survey on image encryption techniques using chaotic maps in spatial, transform and spatiotemporal domains. Int J Inf Secur 2022; 21:917-935. [9] Chen J, Zhu Z, Fu C, Yu H. A fast image encryption scheme with a novel pixel swapping-based confusion approach. Nonlinear Dynam 2014; 77:1191-1207. [10] Wong K, Kwok B, Yuen C. An efficient diffusion approach for chaosbased image encryption. Chaos Soliton Fract 2009; 41:2652-2663. [11] Matthews R. On the derivation of a “chaotic” encryption algorithm. Cryptologia 1989; 13:29-42. [12] Massoudi A, Lefebvre F, De Vleeschouwer C, Macq B, Quisquater JJ. Overview on selective encryption of image and video: challenges and perspectives. Eurasip J Inf Secur 2008; 2008:179290. [13] Liu F, Koenig H. A survey of video encryption algorithms. Comput Secur 2010; 29: 3-15. [14] Chiaraluce F, Ciccarelli L, Gambi E, Pierleoni P, Reginelli M. A new chaotic algorithm for video encryption. IEEE T Consum Electr 2002; 48:838-844. [15] Lian S, Sun J, Wang J, Wang Z. A chaotic stream cipher and the usage in video protection. Chaos Soliton Fract 2007; 34:851-859. [16] Yang S, Sun S. A video encryption method based on chaotic maps in DCT domain. Prog Nat Sci 2008; 18:1299-1304. [17] Valli D, Ganesan K. Chaos based video encryption using maps and Ikeda time delay system. Eur Phys J Plus 2017; 132:1-18. [18] Kumar RR, Ganeshkumar D, Suresh A, Manigandan K. A new one round video encryption scheme based on 1D chaotic maps. in: 2019 5th Int Conf Adv Comput Commun Syst; 2019:439-444. [19] Li x, Yu H, Zhang H, Jin X, Sun H, Liu J. Video encryption based on hyperchaotic system. Multimed Tools Appl 2020; 79:23995-24011. [20] Yasser I, Mohamed A, Samra AS, Khalifa F. A chaotic-based encryption/decryption framework for secure multimedia communications. Entropy 2020; 22:1253. [21] Hosny KM, Zaki MA, Lashin NA, Hamza HM. Fast colored video encryption using block scrambling and multi-key generation. Visual Comput 2022; 2022:1-32. [22] Dua M, Makhija D, Manasa PYL, Mishra P. 3D chaotic map-cosine transformation based approach to video encryption and decryption. Open Comput Sci 2022; 12:37-56. [23] Hamidouche W, Farajallah M, Sidaty N, Assad S, Deforges O. Real-time selective video encryption based on the chaos system in scalable HEVC extension. Signal Process: Image Commun 2017; 58:73-86. [24] Chen H, Tanougast C, liu Z, Blondel W, Hao B. Optical hyperspectral image encryption based on improved Chirikov mapping and gyrator transform. Opt Laser Eng 2018; 107:62-70. [25] Fu C, Chen J, Zou H, Meng W, Zhan Y, Yu Y. A chaos-based digital image encryption scheme with an improved diffusion strategy. Opt Express 2012; 20:2363-2378. [26] Zhong J, Jiang D, Huang Q, Cao Y. A self-updating digital chaotic stream cipher. Int J Mod Phys 2018; 29:1850074. [27] Hua Z, Zhou Y. Image encryption using 2D Logistic-adjusted-Sine map. Inform Sci 2016; 339:237-253. [28] Li c, Lin D, Feng B, Lv J, Hao F. Cryptanalysis of a chaotic image encryption algorithm based on information entropy. IEEE Access 2018; 6: 75834-75842. [29] Man Z, Li J, Di X, Sheng Y, Liu Z. Double image encryption algorithm based on neural network and chaos. Chaos Soliton Fract 2021; 152:111318. [30] Kwok HS, Tang WKS. A fast image encryption system based on chaotic maps with finite precision representation. Chaos Soliton Fract 2007; 32:1518-1529. [31] Zhang X, Zhao Z, Wang J. Chaotic image encryption based on circular substitution box and key stream buffer. Singal Process 2014; 29:902-913. [32] Ye G, Wong KW. An efficient chaotic image encryption algorithm based on a generalized Arnold map. Nonlinear Dynam 2012; 69:2079-2087. [33] Rhouma R, Meherzi S, Belghith S. OCML-based colour image encryption. Chaos Soliton Fract 2009; 40:309-318. [34] Belazi A, Khan M, El-Latif AAA, Belghith S. Efficient cryptosystem approaches: S-boxes and permutation-substitution-based encryption. Nonlinear Dynam 2018; 87:337-361. [35] Wu Y, Zhou Y, Saveriades G, Agaian S, Noonan JP, Natarajan P. Local Shannon entropy measure with statistical tests for image randomness. Inform Sci 2013; 222:323-342. [36] Artiles JAP, Chaves DPB, Pimentel C. Image encryption using block cipher and chaotic sequences. Signal Process 2019; 79:24-31. [37] Xian Y, Wang X. Fractal sorting matrix and its application on chaotic image encryption. Infrom Sci 2021; 547:1154-1169. [38] Rukhin A,et al. A statistical test suite for random and pseudorandom number generators for cryptographic applications. NIST Special Publication 800-22, Revision 1.a 2010. [39] Wang X, Teng L, Qin X. A novel colour image encryption algorithm based on chaos. Signal Process 2012; 92:1101-1108. [40] Alvarez G, Li S. Some basic cryptographic requirements for chaos-based cryptosystems. Int J Bifurcat Chaos 2006; 16:2129-2151. [41] Khan M, Massod F. A novel chaotic image encryption technique based on multiple discrete dynamical maps. Multimed Tools Appl 2019; 78:26203- 26222. [42] Luo Y, Yu J, Lai W, Liu L. A novel chaotic image encryption algorithm based on improved baker map and logistic map. Multimed Tools Appl 2019; 78: 22023-22043. [43] Mansouri A, Wang X. A novel one-dimensional sine powered chaotic map and its application in a new image encryption scheme. Inform Sci 2020; 520:46-62. [44] Talhaoui MZ, Wang X. A new fractional one dimensional chaotic map and its application in high-speed image encryption. Infrom Sci 2021; 550:13- 26. [45] Chen H, Bai E, Jiang X, Wu Y. A Fast Image Encryption Algorithm Based on Improved 6-D Hyper-Chaotic System. IEEE Access 2022; 10:116031- 116044. [46] Azzeh J, Zahran B, Alqadi Z. Salt and pepper noise: Effects and removal. JOIV: Int J Inform Visual 2018; 2:252-256. [47] Gan Z, Chai X, Han D, Chen Y. A chaotic image encryption algorithm based on 3-D bit-plane permutation. Neural Comput Appl 2019; 31:7111- 7130.

Memory Efficient Multithreaded Incremental Segmented Sieve Algorithm: Introduction

Advancing Video Encryption with Real-Time Parallel Computing Strategy: Conclusion

Read My Stories

Too Long; Didn't Read

Get Free Unlimited IP Geo Data With IPinfo Lite

Acknowledgments and References

About Author

Comments

TOPICS

THIS ARTICLE WAS FEATURED IN

Related Stories

Untitled Story

Advancing Video Encryption with Real-Time Parallel Computing Strategy: Conclusion

Robust Cryptosystem Analysis: Key Space Sensitivity and Differential Attack Resistance

Parameter Optimization for Robust Cryptosystem Performance in Encryption

Strides in Real-Time Video Encryption: Comparison To Previous Works

Advancing Video Encryption with Real-Time Parallel Computing Strategy: Conclusion

Advancing Video Encryption with Real-Time Parallel Computing Strategy: Conclusion

Robust Cryptosystem Analysis: Key Space Sensitivity and Differential Attack Resistance

Parameter Optimization for Robust Cryptosystem Performance in Encryption

Strides in Real-Time Video Encryption: Comparison To Previous Works

Advancing Video Encryption with Real-Time Parallel Computing Strategy: Conclusion

Light-Mode

Classic

Newspaper

Dark-Mode

Neon Noir

Minty

HN StartUps