Chaotic Encryption Scheme Based on a Fast Permutation and Diffusion Structure

Jean De Dieu Nkapkop^1,2, Joseph Effa¹, Monica Borda², Laurent Bitjoka³, and Alidou Mohamadou⁴

¹Department of Physics, University of Ngaoundéré, Cameroon

²Department of Communications, Technical University of Cluj-Napoca, Romania

³Department of Electrical Engineering, Energetics and Automatics, University of Ngaoundéré, Cameroon

⁴Department of Physics, University of Maroua, Cameroon

Abstract: The image encryption architecture presented in this paper employs a novel permutation and diffusion strategy based on the sorting of chaotic solutions of the Linear Diophantine Equation (LDE) which aims to reduce the computational time observed in Chong's permutation structure. In this scheme, firstly, the sequence generated by the combination of Piece Wise Linear Chaotic Map (PWLCM) with solutions of LDE is used as a permutation key to shuffle the sub-image. Secondly, the shuffled sub-image is masked by using diffusion scheme based on Chebyshev map. Finally, in order to improve the influence of the encrypted image to the statistical attack, the recombined image is again shuffle by using the same permutation strategy applied in the first step. The design of the proposed algorithm is simple and efficient, and based on three phases which provide the necessary properties for a secure image encryption algorithm. According to NIST randomness tests the image sequence encrypted by the proposed algorithm passes all the statistical tests with the high P-values. Extensive cryptanalysis has also been performed and results of our analysis indicate that the scheme is satisfactory in term of the superior security and high speed as compared to the existing algorithms.

Keywords: Fast and secure encryption, chaotic sequence, linear diophantine equation, NIST test.

Received May 16, 2015; accepted September 7, 2015