отображение Бернулли

CIRCULAR NON­AUTONOMOUS GENERATOR OF HYPERBOLIC CHAOS

A scheme of circular system is introduced, which is supposed to generate hyperbolic chaos. Its operation is based on doubling of phase on each complete cycle of the signal transmission through the feedback ring. That is a criterion for the attractor of Smale–Williams type to exist. Mathematically, the model is described by the fourth order nonautonomous system of ordinary differential equations. The equations for slowly varying complex amplitudes are derived, and the Poincar ́ e return map is obtained. Numerical simulation data are presented.

HYPERCHAOS IN A SYSTEM WITH DELAYED FEEDBACK LOOP BASED ON Q­SWITCHED VAN DER POL OSCILLATOR

We present a way to realize hyperchaotic behavior for a system based on Q­switched van der Pol oscillator with non­linear signal transformation in the delayed feedback loop. The results of numerical studies are discussed: time dependences of variables, attractor portraits, Lyapunov exponents, and power spectrum.

CHAOS IN THE PHASE DYNAMICS OF Q­SWITCHED VAN DER POL OSCILLATOR WITH ADDITIONAL DELAYED FEEDBACK LOOP

We present chaos generator based on a van der Pol oscillator with two additional delayed feedback loops. Oscillator alternately enters active and silence stages due to periodic variation of the parameter responsible for the Andronov–Hopf bifurcation. Excitation of the oscillations on each new activity stage is forced by signal resulting from mixing of the first and the second harmonics of signals from previous activity stages, transported through the feedback loops.