Enhanced Image Encryption Using Six-Dimensional Hyperchaotic Systems Chaotic-based image encryption algorithms have found widespread applications across various industries. However, many encryption schemes utilizing low-dimensional chaotic systems suffer from insufficient security measures. To addre...
Chaotic-based image encryption is widely utilized, yet many algorithms relying on low-dimensional chaotic maps suffer from insufficient security margins. To overcome these vulnerabilities, an encryption framework leveraging a six-dimensional (6D) hyperchaotic generator integrated with DNA sequence o...
Introduction With advancements in digital image processing, image encryption has become increasingly vital for information security. Chaotic encryption algorithms are a popular research focus due to their effective diffusion and confusion properties. However, traditional low-dimensional chaotic syst...
Image encryption is critical for securing visual data during transmission and storage. Traditional methods often rely on spatial or frequency domain operations, which can be vulnerable to attacks. To enhance security, phase encoding techniques have gained attention in recent research. Dual random ph...
Chaos-based image encryption algorithms are widely used across various industries, but many rely on low-dimensional chaotic systems, wich can compromise security due to limited key spaces and vulnerability to attacks. To address this, a novel image encryption method combining a 6D hyperchaotic syste...