This paper discusses the implementation sensitivity of chaotic systems added to their widely discussed sensitivities to initial conditions and parameter variation
FPGA implementation of a chaotic oscillator with odd/even symmetry and its application
We propose a mathematical system capable of exhibiting chaos with a chaotic attractor which is odd symmetrical in the x ? y phase plane but even symmetrical in the x ? z and y ? z phase planes respectively
Enhanced hardware implementation of a mixed-order nonlinear chaotic system and speech encryption application
This paper introduces a study for the effect of using different floating-point representations on the chaotic system’s behaviour
FPGA implementation of two fractional order chaotic systems
This paper discusses the FPGA implementation of the fractional-order derivative as well as two fractional-order chaotic systems where one of them has controllable multi-scroll attractors
Encryption applications of a generalized chaotic map
This paper presents the mathematical aspects of a generalized Sine map with arbitrary powers and scaling factor
Controllable V-shape multiscroll butterfly attractor: System and circuit implementation
In this paper, a new controllable V-shape multiscroll attractor is presented, where a variety of symmetrical and unsymmetrical attractors with a variable number of scrolls can be controlled using new staircase nonlinear function and the parameters of the system
A study on coexistence of different types of synchronization between different dimensional fractional chaotic systems
In this study, robust approaches are proposed to investigate the problem of the coexistence of various types of synchronization between different dimensional fractional chaotic systems
A fractal-based image encryption system
This study introduces a novel image encryption system based on diffusion and confusion processes in which the image information is hidden inside the complex details of fractal images
Reconfigurable FPGA Realization of Fractional-Order Chaotic Systems
This paper proposes FPGA realization of an IP core for generic fractional-order derivative based on Grünwald-Letnikov approximation
Parameter identification of fractional-order chaotic systems using different Meta-heuristic Optimization Algorithms
Fractional-order chaotic systems (FOCS) parameter identification is an essential issue in chaos control and synchronization process