Ultra-key Space Domain for Image Encryption using Chaos-based Approach with DNA Sequence

Abstract: Recently, image encryption has taken an importance especially after the dramatic evolution of the internet and network communication. The importance of securing the images contents is due to the simplicity of capturing and transferring of digital images in various communication media. Although there are many approaches for image encryptions, chaos-based image encryption approach is considered one of the most appropriate approaches because of its simplicity, security, and sensitivity to the input parameter. Thi… Show more

“…An image encryption algorithm is designed by combining fractional Fourier transform, DNA sequence operation and chaos theory, and the algorithm has good encryption effect, large key space and high key sensitivity [22]. A technique for encrypting RGB image components by using nonlinear chaotic function and DNA sequence is presented in [23]. In [24], the theoretical security of a medical privacy protection scheme based on DNA encoding and chaotic maps is reanalyzed, and the scheme is rigorously proven to be insecure against the chosen-plaintext attack.…”

Design of Higher-Dimensional Hyperchaotic System based on Combined Control and its Encryption Application

“…An image encryption algorithm is designed by combining fractional Fourier transform, DNA sequence operation and chaos theory, and the algorithm has good encryption effect, large key space and high key sensitivity [22]. A technique for encrypting RGB image components by using nonlinear chaotic function and DNA sequence is presented in [23]. In [24], the theoretical security of a medical privacy protection scheme based on DNA encoding and chaotic maps is reanalyzed, and the scheme is rigorously proven to be insecure against the chosen-plaintext attack.…”

Design of Higher-Dimensional Hyperchaotic System based on Combined Control and its Encryption Application