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Zbl 1191.68774
Borujeni, Shahram Etemadi; Eshghi, Mohammad
Chaotic image encryption design using Tompkins-Paige algorithm. (English)
[J] Math. Probl. Eng. 2009, Article ID 762652, 22 p. (2009). ISSN 1024-123X; ISSN 1563-5147/e

Summary: We present a new permutation-substitution image encryption architecture using chaotic maps and Tompkins-Paige algorithm. The proposed encryption system includes two major parts, chaotic pixels permutation and chaotic pixels substitution. A logistic map is used to generate a bit sequence, which is used to generate pseudorandom numbers in Tompkins-Paige algorithm, in 2D permutation phase. Pixel substitution phase includes two process, the tent pseudorandom image generator and modulo addition operation. All parts of the proposed chaotic encryption system are simulated. Uniformity of the histogram of the proposed encrypted image is justified using the chi-square test, which is less than $\chi^{2}(255, 0.05)$. The vertical, horizontal, and diagonal correlation coefficients, as well as their average and RMS values for the proposed encrypted image are calculated that is about 13\% less than previous researches. To quantify the difference between the encrypted image and the corresponding plain-image, three measures are used. These are MAE, NPCR, and UACI, which are improved in our proposed system considerably. NPCR of our proposed system is exactly the ideal value of this criterion. The key space of our proposed method is large enough to protect the system against any Brute-force and statistical attacks.
MSC 2000:
*68U10 Image processing
68P25 Data encryption
68W05 Nonnumerical algorithms

Keywords: permutation-substitution image encryption architecture

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