A DNA-Based Security solution Using Aggregated Chaos Cross and Cubic Map

A DNA-Based Security solution Using Aggregated Chaos Cross and Cubic Map

Zeeshan Ahmad1, Hafiz Umar2, Chundong Li3 and Ling Chen3

1School of Electronic Engineering and Optoelectronic Technology Nanjing University of Science and Technology, China

2Department of Computer Science, Ghazi University, Pakistan

3College of Electronic and Information Engineering, Southwest University, 

Abstract: DNA, cryptography and chaos, can be combined as a whole aggregated DNA, chaos-based and cryptography Discrete Chaotic Cryptography (DCC) to encrypt and decrypt data simultaneously. A new image encryption scheme based on chaotic system and DNA encoding has been proposed in this paper. Firstly the image is permuted by mixing the horizontally and vertically adjoint pixels with the help of cross chaotic map. Afterwards, the permuted image is divided into least significant bits (LSB) and most significant bits (MSB).  Each LSB and MSB is further divided into two blocks and encoded by DNA sequence. The encoded blocks are combined and XOR operation is performed to get a diffused image. Finally the diffused image is permuted by a cubic chaotic map to accomplish the confusion phase and cypher image is obtained. Simulation results show that the proposed scheme can achieve good encryption and also provide resistance against different kind of attacks.

Keywords: Chaos Theory, DNA, Image Encryption, Cryptography.

  Received June 17, 2014; accepted August 16, 2015

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