Color image encryption algorithm based on Double layer Josephus scramble and laser chaotic system

In this paper, a color image encryption algorithm is presented, the new algorithm uses double -layer Joseph's scramble, XOR diffusion, and is built on a laser chaos system. Firstly, a laser chaotic system is chosen in the scheme and it has the advantages of extended bandwidth and rapid propagation speed. Secondly, the structure of the image encryption scheme follows the Fridrich structure. In the scrambling part, a modified Joseph's ring is adapted to process the chaotic sequence and the picture pixel sequence to achieve the scrambling of the plaintext image pixel positions. In the diffusion part, the XOR diffusion technique is employed to reduce the statistical characteristics of the plaintext picture, which can resist external attacks better. Finally, the presented encryption algorithm is demonstrated utilizing simulation results and security analysis. The simulation performance demonstrates that the new proposed method is practical. The security test performance indicates that the algorithm can validly encrypt the image with good security performance. In summary, the new scheme designed in this paper can offer better technical backing for the wide applications of image encryption.

Automated summary

In this paper, a color image encryption algorithm is presented, which utilizes double-layer Joseph's scramble, XOR diffusion, and is built on a laser chaos system. The algorithm shows good practicality and security performance based on simulation results and security analysis. The proposed scheme provides better technical support for the wide applications of image encryption.