A Digital Hardware Implementation for A new Mixed-Order Nonlinear 3-D Chaotic System

By

Elsafty A.H.

Tolba M.F.

Said L.A.

Madian A.H.

Radwan A.G.

Circuit Theory and Applications

Software and Communications

Mechanical Design

This paper introduces a generic modeling for a 3-D nonlinear chaotic based on fractional-order mathematical rules. Also, a novel modeling for the system using a mixture between integer and fractional-order calculus is proposed. Dynamics of the new realization are illustrated using phase portrait diagrams with complex behavior. Also, a great change in the parameter ranges is investigated using bifurcation diagrams. MATLAB and Xilinx ISE 14.5 are used in system simulations. Furthermore, the digital hardware implementation is done using Xilinx FPGA Virtex-5 kit. The synthesis report shows that the mixed-order design utilizes 2019 slices and 1809 registers. The proposed system proves its possibility to be used in cryptosystems. © 2019 IEEE.

A Digital Hardware Implementation for A new Mixed-Order Nonlinear 3-D

A Digital Hardware Implementation for A new Mixed-Order Nonlinear 3-D Chaotic System

Association between long noncoding RNA taurine-upregulated gene 1 and microRNA-377 in vitiligo

Estimating phase error using a Hilbert transform-based time-domain technique

Graph transformer for communities detection in social networks

S-shaped and V-shaped gaining-sharing knowledge-based algorithm for feature selection

A Digital Hardware Implementation for A new Mixed-Order Nonlinear 3-D

A Digital Hardware Implementation for A new Mixed-Order Nonlinear 3-D Chaotic System

Related Publications

Association between long noncoding RNA taurine-upregulated gene 1 and microRNA-377 in vitiligo

Estimating phase error using a Hilbert transform-based time-domain technique

Graph transformer for communities detection in social networks

S-shaped and V-shaped gaining-sharing knowledge-based algorithm for feature selection