基于状态反馈控制的分数阶单机-无限母线电力系统混沌消除

2018 Recent Advances on Engineering, Technology and Computational Sciences (RAETCS) Pub Date : 2018-02-01 DOI:10.1109/RAETCS.2018.8443793

P. K. Dewangan, Bimalesh Chandra Rout, D. Lal

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引用次数: 2

摘要

对分数阶单机无限母线(SMIB)电力系统模型进行了数值研究，分析了系统的动态特性。当系统动力学微分方程的参数值或阶数在一定范围内时，系统出现混沌振荡。采用一种简单的状态反馈方法，从混沌吸引子中提取低周期轨道，从而将混沌转化为周期运动。数值仿真结果验证了系统对初始扰动和外部扰动的鲁棒性分析，验证了控制目标的有效性。

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Chaos Elimination in Fractional-Order Single-Machine-Infinite-Bus Power System Using State-Feedback Control

A fractional-order single-machine-infinite-bus (SMIB) power system model is studied numerically and dynamic behavior of the system is analyzed. The system shows chaotic oscillations when the parameter values or the order of the system dynamics differential equations fall into certain range. A simple state-feedback approach is applied which tends to extract low-periodic orbits from chaotic attractor and hence convert chaos into periodic motion. Numerical simulation results are obtained for robustness analysis against perturbations in initial condition as well as external disturbance which verifies the required control goal.

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2018 Recent Advances on Engineering, Technology and Computational Sciences (RAETCS)

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