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Nishiuchi, Y.; Ueta, T.; Kawakami, H.

Stable torus and its bifurcation phenomena in a simple three-dimensional autonomous circuit. (English) Zbl 1089.94050

Chaos Solitons Fractals 27, No. 4, 941-951 (2006).
Summary: It is well known that a stable torus is observed as a result after the system meets the super-critical Neimark-Sacker bifurcation for a limit cycle. Although tori are easily observed in two-dimensional and periodically forced dynamical systems, there is a few papers about stable tori in three-dimensional autonomous systems. Besides, as physical circuit implementations, such circuits contain very special active elements, or have difficulty in realizing. In this paper, we show a very simple circuit of three-dimensional autonomous system, an extended Bonhöffer-van der Pol (BVP) oscillator, which is demonstrating a stable torus.
Firstly we explain a discovery of the torus in a computer simulation of the model equation. To implement it as a circuitry, we design a new nonlinear resistor. Although this contains an FET and an op-amp, it is simpler than any other nonlinear resistors proposed in previous papers. We confirm that this BVP oscillator can generate a stable torus in a real circuitry. We thoroughly investigate the bifurcation phenomena of various limit cycles and tori in this circuit, i.e., a super-critical Neimark-Sacker and tangent bifurcations of limit cycles are concretely obtained, furthermore, phase locking and chaos regions are clarified in a bifurcation diagram.

Cited in 7 Documents

MSC:

94C05 Analytic circuit theory

Keywords:

Neimark-Sacker bifurcation; extended Bonhöffer-van der Pol (BVP) oscillator
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References:

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