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Chaos control in six-dimensional power system via adaptive synergetic approach
Journal of Vibration and Control ( IF 2.3 ) Pub Date : 2020-01-06 , DOI: 10.1177/1077546319889850
Jiangbin Wang 1 , Ling Liu 1 , Chongxin Liu 1 , Ziwei Zhu 1 , Yan Wang 1
Affiliation  

In view that researchers only control some low-dimensional chaotic power system models, this paper aims at controlling chaos in a complex six-dimensional power system model. By introducing the dynamic model of an energy storage device and static synchronous compensator, an adaptive synergetic control scheme is proposed for the model to suppress its chaotic oscillation. Since the designed controller will inevitably contain complex derivative terms of a controlled power system according to the conventional controller design process, a novel adaptive synergetic control scheme is proposed. The presented adaptive controller for the chaotic power system can completely suppress its chaotic oscillation. The prominent advantages of the proposed control scheme are that it can avoid complex derivative terms of the controlled system and can avoid chattering as in the sliding mode control method. Simulations validate the effectiveness and robustness of the proposed scheme.

中文翻译:

基于自适应协同方法的六维电力系统混沌控制

鉴于研究人员只能控制一些低维混沌电力系统模型,因此本文旨在控制复杂的六维电力系统模型中的混沌。通过引入储能装置和静态同步补偿器的动态模型,提出了一种自适应协同控制方案,以抑制模型的混沌振荡。由于根据常规控制器设计过程,所设计的控制器将不可避免地包含受控电力系统的复数导数项,因此提出了一种新颖的自适应协同控制方案。所提出的用于混沌电力系统的自适应控制器可以完全抑制其混沌振荡。所提出的控制方案的突出优点在于,它可以避免受控系统的复杂导数项,并且可以避免像滑模控制方法中那样颤动。仿真验证了所提方案的有效性和鲁棒性。
更新日期:2020-01-06
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