Selective encryption for gray images based on chaos and DNA complementary rules
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- 作者:Aqeel ur Rehman ; Xiaofeng Liao ; Ayesha Kulsoom…
- 关键词:Block image encryption ; Logistic ; PWLCM ; Chaos ; Complementary DNA rules
- 刊名:Multimedia Tools and Applications
- 出版年:2015
- 出版时间:July 2015
- 年:2015
- 卷:74
- 期:13
- 页码:4655-4677
- 全文大小:2,497 KB
- 参考文献:1.Adelman (1994) Molecular computation of solution of combinatorial problems. Science 266:1021鈥?024View Article
2.Alvarez G, Li S (2006) Some basic cryptography requirements for chaos based cryptosystems. J Bifurcation Chaos 16:2129鈥?151MATH MathSciNet View Article
3.Behnia S, Akhshani A, Mahmodi H, Akhavan A (2008) 鈥淎 novel algorithm for image encryption based on mixture of chaotic maps鈥? Chaos, Solitons Fractals 35:408鈥?19MATH MathSciNet View Article
4.Biham E, Shamir A (1991) 鈥淒ifferential cryptanalysis of DES-like cryptosystems,鈥?In Proceedings of the 10th Annual International Cryptology Conference on Advances in Cryptology: Springer-Verlag
5.Biham E, Shamir A (1993) Differential cryptanalysis of the Full 16-round DES, In Proceedings of the 12th Annual International Cryptology Conference on Advances in Cryptology: Springer-Verlag
6.Chang WC, Wong KW, Yu H, Zhu ZL (2012) An image encryption scheme using light weight bit level confusion and cascade cross circular diffusion. Opt Commun 285:2343鈥?354View Article
7.Chen G, Mao Y, Chui C (2004) 鈥淎 symmetric image encryption scheme based on 3D chaotic cat maps鈥? Chaos, Solitons Fractals 21:749鈥?61MATH MathSciNet View Article
8.Francois M, Grosges T, Barchiesi D, Erra R (2012) A new image encryption scheme based on a chaotic function. Signal Process Image Commun 27:249鈥?59View Article
9.Fridrich J (1998) Symmetric ciphers based on two-dimensional chaotic maps. J Bifurcation Chaos 8:1259鈥?262MATH MathSciNet View Article
10.Hermassi H, Rhouma R, Belghith S (2010) Joint compression and encryption using chaotically mutated Huffman trees. Commun Nonlinear Sci Numer Simulat 15:2987鈥?999MATH MathSciNet View Article
11.Hongjun L, Xingyuan W (2010) Color image encryption based on one time keys and robust chaotic maps. Comput Math Appl 59:3320鈥?327MATH MathSciNet View Article
12.Hui CG, Kai H, Ding Yi (2012) Image permutation scheme based on modified logistic map, IPCSIT 52
13.Kaneko K (1989) Pattern dynamics in spatiotemporal chaos: pattern selection, diffusion of defect and pattern competition intermittency, Physica D 34
14.King OD, Gabroit P (2007) Binary templates for comma free DNA codes. Discret Appl Math 155:831鈥?39MATH View Article
15.Liu H, Wang X, Kadir A (2012) Image encryption using DNA complementary rule and chaotic maps. Appl Soft Comput 12:1457鈥?466View Article
16.Liu L, Zhang Q, Wei X, A RGB image encryption algorithm based on DNA encoding and chaos map Computers and Electrical Engineering 38(2012) 1240-1248
17.Menezes AJ, Oorschot PC, Vanstone SA (1996) Handbook of applied cryptography. CRC Press, Boca RatonView Article
18.Socek D, Magliveras S, C鈥檜librik D, Marques O, Kalva H, Furhat B, Digital video encryption algorithm based on correlation preserving permutations, EURASIP Journal on Information Security, doi:10.鈥?155/鈥?007/鈥?2965
19.Stallings W (1999) Cryptography and network security: principles and practices. Prentice Hall, Upper Saddle River
20.Stinson DR (2002) Crtography: theory and prctise, 2nd edn. CRC, Boca Raton
21.Wang Y, Liao X, Xiang T, Wang KW (2007) Cryptanalysis and improvement on a block cryptosystems based on iterating a chaotic map. Phys Lett A 363:277鈥?81MATH View Article
22.Wang Y, Wong KW, Liao X, Chen G (2011) A new chaos-based fast image encryption algorithm. Applied soft computing 11:514鈥?22View Article
23.Wang X, Zhang J (2008), An image scrambling encryption using chaos controlled Poker shuffle operation, in: Proceedings of International Symposium on Biometrics and Security Technologies, 23鈥?4 April 2008, pp 1鈥?
24.Watson JD, Crick FHC (1953) A structure for DNA. Nature 171:737鈥?38View Article
25.Wu Y, Noonan J P, Agaian S (2011) Shannon entropy based randomness measurement and test for image encryption, in CoRR abs/1103.5520
26.Wu Y, Noonan JP, Agaian S (2011) NPCR and UACI randomness tests for image encryption,鈥?in Cyber Journals: Multidisciplinary Journals in Science and Technology, Journal of Selected Areas in Telecommunications (JSAT), pp 31鈥?8 (April 2011)
27.Xiao GZ, Lu MX, Qin L, Lai XJ (2006) New field of Cryptography, Chinese Science Bulletin 51
28.Xingyuan W, Canqi J (2012) Image encryption using game of life permutation and PWLCM chaotic system. Opt Commun 285:412鈥?17View Article
29.Yuan WX, Feng C, Tian W (2010) A new compound mode of confusion and diffusion for block encryption of image based on chaos. Commun Nonlinear Sci Numer Simulat 15:2479鈥?485MATH View Article
30.Zhang Q, Guo L, Wei X (2010) Image encryption using DNA addition combining with chaotic maps. Math Comput Model 52:2028鈥?035MATH MathSciNet View Article
31.Zhang Q, Guo L, Xue X, Wei X (2009) An image encryption algorithm based on DNA sequence addition operation Fourth International Conference on Bio-Inspired Computing. BIC-TA 鈥?9 - 作者单位:Aqeel ur Rehman (1)
Xiaofeng Liao (1)
Ayesha Kulsoom (1)
Syed Ali Abbas (1)
1. Department of Computer Science and Engineering, ChongQing University, Chongqing, People鈥檚 Republic of China - 刊物类别:Computer Science
- 刊物主题:Multimedia Information Systems
Computer Communication Networks
Data Structures, Cryptology and Information Theory
Special Purpose and Application-Based Systems - 出版者:Springer Netherlands
- ISSN:1573-7721
文摘
A new block cipher for gray images is proposed in this paper which fully utilizes whole set of DNA complementary rules dynamically for encoding and decoding each pixel of a block. The most significant (MSB) part of each block is added under DNA addition operation with least significant (LSB) while LSB part itself get encrypted by chaotically selecting different DNA rules for each pixel. The initial condition is calculated from 128-bits external input key and then the said key is modified for each subsequent block of an image. An image is permuted by Piecewise Linear Chaotic Map (PWLCM) while logistic sequence is used for the selection of encoding and decoding rules for each pixel of a block. The simulated experimental results and the security analysis in terms of quantitative and qualitative way show that our cipher can not only achieve good encryption effect to resist the exhaustive and statistical attacks but also is a good candidate for encrypting large sized uncompressed gray images.