Optimal Feedback Control of Power Systems Using Eigenstructure Assignment and Particle Swarm Optimization

IF 0.2 4区 工程技术 Q4 ENGINEERING, CIVIL
FRANK FERRESE, QING DONG, NAT NATARAJ, SAROJ BISWAS
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引用次数: 1

Abstract

The US Navy has a continuing interest and investment in basic and applied research in the area of automation and control. The potential naval applications for this research are numerous and wide ranging. The need for advances in control and automation systems exists from missile defense, to shipboard auxiliary systems, to naval aircraft, and virtually everywhere in between. This research is performed in industry, academia, and in naval laboratories across the nation. This paper will detail particular research in control theory being performed in the area of automation and controls in the naval laboratories. A particle swarm optimization algorithm is used to manipulate the state and control weighting matrices of a linear quadratic regulator to achieve an optimal control for a desired eigenstructure. The algorithm is demonstrated on a nonlinear power system model, and is found to be highly effective in the stabilization of the system output performance, showing both rapid convergence and a closed loop eigenstructure very close to the specified eigenstructure.

基于特征结构分配和粒子群优化的电力系统最优反馈控制
美国海军一直对自动化和控制领域的基础和应用研究感兴趣并进行投资。这项研究的潜在海军应用范围广泛。对控制和自动化系统进步的需求存在,从导弹防御到船上辅助系统,再到海军飞机,几乎无处不在。这项研究在全国各地的工业界、学术界和海军实验室进行。本文将详细介绍在海军实验室自动化和控制领域进行的控制理论研究。粒子群优化算法用于操纵线性二次调节器的状态和控制加权矩阵,以实现对所需本征结构的最优控制。该算法在非线性电力系统模型上进行了验证,发现该算法在稳定系统输出性能方面非常有效,表现出快速收敛和闭环本征结构非常接近指定的本征结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Naval Engineers Journal
Naval Engineers Journal 工程技术-工程:海洋
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