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Controlling Chaos through Period-Doubling Bifurcations in Attitude Dynamics for Power Systems

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  • Shun-Chang Chang

Abstract

This paper addresses the complex nonlinear dynamics involved in controlling chaos in power systems using bifurcation diagrams, time responses, phase portraits, Poincaré maps, and frequency spectra. Our results revealed that nonlinearities in power systems produce period-doubling bifurcations, which can lead to chaotic motion. Analysis based on the Lyapunov exponent and Lyapunov dimension was used to identify the onset of chaotic behavior. We also developed a continuous feedback control method based on synchronization characteristics for suppressing of chaotic oscillations. The results of our simulation support the feasibility of using the proposed method. The robustness of parametric perturbations on a power system with synchronization control was analyzed using bifurcation diagrams and Lyapunov stability theory.

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  • Shun-Chang Chang, 2020. "Controlling Chaos through Period-Doubling Bifurcations in Attitude Dynamics for Power Systems," Mathematical Problems in Engineering, Hindawi, vol. 2020, pages 1-10, December.
    • Handle: RePEc:hin:jnlmpe:8853459
    DOI: 10.1155/2020/8853459
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