Harmonic oscillations, routes to chaos and synchronization in a nonlinear emitter-receiver system

The dynamics of a non-autonomous chaotic system with one cubic nonlinearity is studied through numerical and experimental investigations in this paper. A method for calculating Lyapunov exponents (LEs), Lyapunov dimension (LD) from time series is presented. Furthermore, some complex dynamic behaviors such as periodic, quasi-periodic motion and chaos which occurred in the system are analyzed, and a route to chaos, phase portraits, Poincare sections, bifurcation diagrams are observed. Finally, a first order differential controller for the non-autonomous system is designed. Also some dynamics such as Poincare sections, bifurcation diagrams for specific control parameter values of the controlled system are showed using numerical and experimental simulations.

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Harmonic oscillations, routes to chaos and synchronization in a nonlinear emitter-receiver system

Cited by 2 publications

References 9 publications

Investigation on Synchronization of Two Identical Class of Chaotic Systems Using Back-Stepping Control Technique in the Presence of Time Delays

Investigation on Synchronization of Two Identical Class of Chaotic Systems Using Back-Stepping Control Technique in the Presence of Time Delays

Dynamical Analysis and Chaos Control of a Driven System with One Cubic Nonlinearity: Numerical and Experimental Investigations

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