Encryption algorithm based on Hadoop and non-degenerate high-dimensional discrete hyperchaotic system

Wen He-Ping; Yu Si-Min; Lü Jin-Hu

doi:10.7498/aps.66.230503

Abstract

Aiming at the data security problem in big data environment, in this paper we propose a new chaotic encryption algorithm based on both big data platform named Hadoop and non-degenerate high-dimensional discrete hyperchaotic system. The algorithm utilizes the chaotic stream cryptography and reads the data from HDFS of Hadoop platform. After fragmentation processing and MapReduce programming, the data are encrypted and decrypted by Map function in parallel. The Reduce function implements the merging operation of the data and stores them on the HDFS. The algorithm has a better execution efficiency. Compared with the low-dimensional chaotic system based encryption algorithm, the non-degenerate high-dimensional discrete chaotic system based encryption algorithm can improve the system security performance. It can pass the strict TESTU01 test with better statistical properties and make sure that the correlation with the parallel ciphertext is very small. Numerous key parameters increase the difficulty in making estimation or identification. Under the closed-loop feedback in ciphertext, it has the ability to resist the known and chosen plaintext attacks.

Keywords:

Authors and contacts

1.
College of Automation, Guangdong University of Technology, Guangzhou 510006, China;
2.
Academy of Mathematics and Systems Science, Chinese Academy of Sciences, Beijing 100190, China

Corresponding author: Wen He-Ping, wenhp1019@163.com

Funds: Project supported by the National Key Research and Development Program of China (Grant No. 2016YFB0800401) and the National Natural Science Foundation of China (Grant Nos. 61532020, 61671161, 61172023).

References

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Cited By

[1]	Mayer-Schnberger V, Kenneth C 2013 Big Data:A Revolution That Will Transform How We Live, Work and Think (London:John Murray) pp1-15
[2]	Feng D G, Zhang M, Li H (in Chinese)[冯登国,张敏,李昊 2014 计算机学报 37 246]
[3]	Meng S, Dou W, Zhang X 2014 IEEE Trans. Parall. Distr. 25 3221
[4]	Wang J H, Liu C Y, Fang B X (in Chinese)[王佳慧, 刘川意, 方滨兴 2016 通信学报 37 142]
[5]	Yang C, Lin W, Liu M 2013 IEEE International Conference on Emerging Intelligent Data and Web Technologies Xi'an, China, September 9-11, 2013 p437
[6]	Yu Q, Ling J (in Chinese)[余琦, 凌捷 2013 计算机工程与设计 34 2700]
[7]	Li M, Yang C, Tian J 2015 IEEE International Conference on Computational Intelligence & Communication Technology Ghaziabad, India, February 13-14, 2015 p4799
[8]	Shetty M M, Manjaiah D H 2016 IEEE International Conference on Emerging Technological Trends Kollam, India, October 21-22, 2016 p5090
[9]	Han D, Min L, Chen G 2016 Int. J. Bifurcat. Chaos 26 1650091
[10]	Liu H, Wang X, Kadir A 2014 Int. J. Nonlin. Sci. Num. 15 1565
[11]	Wang C F, Ding Q 2017 Acta Phys. Sin. 66 020504 (in Chinese)[王传福, 丁群 2017 66 020504]
[12]	Lin Z S, Yu S M, L J H 2015 IEEE Trans. Circ. Syst. Vid. 25 1203
[13]	Mirzaei O, Yaghoobi M, Irani H 2012 Nonlinear Dyn. 67 557
[14]	Zhou Q, Wong K W, Liao X 2008 Chaos Soliton Fract. 38 1081
[15]	Wang X Y, Yang G, Min Z E (in Chinese)[王欣宇, 杨庚, 闵兆娥 2015 计算机应用研究 32 1757]
[16]	Si H W, Zhong G Y (in Chinese)[司红伟, 钟国韵 2015 计算机测量与控制 23 2475]
[17]	Chen Z, Yuan X, Yuan Y 2016 IEEE Trans. Circuits I 63 1464
[18]	Ho W H, Chou J H, Guo C Y 2010 Nonlinear Dyn. 61 29
[19]	Sun J, Zhao J, Wu X, Fang W, Cai Y, Xu W 2010 Phys. Lett. A 374 2816
[20]	Chang J F, Yang Y S, Liao T L, Yan J J 2008 Expert Syst. Appl. 35 2074
[21]	Zhao L, Liao X F, Xiang T, Xiao D 2010 Acta Phys. Sin. 59 1507 (in Chinese)[赵亮, 廖晓峰, 向涛, 肖迪 2010 59 1507]
[22]	Termonia Y 1984 Phys. Rev. A 29 1612
[23]	Wang F, Zhang X Z, Shen C W, Yu S M 2012 Acta Phys. Sin. 61 190505 (in Chinese)[王芳, 张新政, 申朝文, 禹思敏 2012 61 190505]
[24]	White T (Zeng D D, Transl.) 2015 Hadoop:The Definitive Guide (Beijing:Tsinghua University Press) pp80-82 (in Chinese)[怀特 (曾大聃, 译) 2015 Hadoop权威指南 (北京:清华大学出版社) 第80–82页]

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Catalog

Vol. 66, Issue 23 - 2017-12-05

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