For the past two decades, chaos theory has been applied to data security as a computationally efficient source of randomness to use in data masking. Many different uses of chaotic systems have been developed, from encryption to watermarking, steganography, and secure communications, with many new applications constantly emerging. For the above applications, continuous, discrete, fractional, and quantum chaotic systems have all been considered.
This special session aims to discuss recent advances in chaos-based encryption. Topics include:
- Continuous, discrete, fractional, or quantum chaotic systems.
- Data and multimedia encryption
- Encryption of 3D objects
- Steganography
- Secure communications
- Watermarking
- Hardware implementations of designs
- Chaos synchronization
- Any other chaos based application related to data security
Session Organizers
Dr. Lazaros Moysis
Laboratory of Nonlinear Systems – Circuits & Complexity (LaNSCom)
Physics Department, Aristotle University of Thessaloniki, Greece
e-mail: lmousis@physics.auth.gr
https://www.researchgate.net/profile/Lazaros_Moysis
Dr. Ioannis Kafetzis
Laboratory of Nonlinear Systems – Circuits & Complexity (LaNSCom)
Physics Department, Aristotle University of Thessaloniki, Greece