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Image Encryption using Chaos-Driven Elliptic Curve Pseudo-Random Number Generators |
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PP: 1283-1292 |
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doi:10.18576/amis/100407
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Author(s) |
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Omar Reyad,
Zbigniew Kotulski,
W. M. Abd-Elhafiez,
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Abstract |
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Pseudo-random number sequences which using the form of elliptic curves can be generated efficiently in software or
hardware by the same methods that are used for the implementation of elliptic curve (EC) public-key cryptosystems. In this paper, we
proposed a secure image encryption scheme using key sequences generated from Chaos-Driven Elliptic Curve Pseudo-random Number
Generator (C-D ECPRNG). This key sequences derived from random sequences based on EC points operations driven by a chaotic
map. These constructions improve randomness properties of the generated sequences since it combines good statistical properties of an
ECPRNG and a Chaotic Pseudo-random Number Generator (CPRNG). Entropy analysis of two test images shows that randomness of
the ciphered images with the proposed key schemes are more random than in case of the ECPRNG without modulation by a chaotic
map. Statistical and differential analysis demonstrate that the proposed schemes have adequate security for the confidentiality of digital
images and the encryption is efficient compared to other competitive algorithms. |
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