一种基于WACS的多输出支持向量机(M-SVM)的电力系统振荡阻尼新设计

2013 International Conference on Information Technology and Electrical Engineering (ICITEE) Pub Date : 2013-12-02 DOI:10.1109/ICITEED.2013.6676259

M. Abdillah, M. Purnomo, A. Soeprijanto, I. Farid

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引用次数: 4

摘要

提出了一种新的广域控制系统(WACS)设计方案。利用WACS来抑制电力系统的振荡。WACS由广域监控(WAM)和广域控制(WAC)两部分组成。WAM用于监测电力系统的动态行为，WAC作为电力系统的附加控制器。该方法被称为基于WACS的多输出支持向量机(M-SVM)。本文使用的M-SVM为回归的M-SVM。WAM使用的输入信号是AVR ΔVwi、各发电机的机械功率ΔPmi和电气功率ΔPei的输入信号。利用WAM输出来预测发电机的转速偏差。WAC是利用发电机的机械动力ΔPmi和电力ΔPei作为输入信号，WAC的输出是注入到AVR的控制信号ΔVwi。利用一个二区四发电机作为测试系统来评估所提出方法的性能。从已经进行的仿真结果来看，该方法比本文提出的其他方法能更好地减少超调量和压缩沉降时间。

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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A novel design of WACS based multi-output support vector machine (M-SVM) for oscillation damping on power system

This paper proposes a novel design of wide area control system (WACS). WACS is utilized to damp the oscillation on power system. WACS consists of wide area monitor (WAM) and wide area control (WAC). WAM is used to monitor the dynamic behavior of power system, while WAC is used as the additional controller on power system. The proposed method is called WACS based multi-output support vector machine (M-SVM). M-SVM used in this paper is M-SVM for regression. The input signal which used by WAM is the input signal to the AVR ΔVwi, the mechanical power ΔPmi and the electrical power ΔPei of each generator. The output of WAM is utilized to predict the speed deviation of the generator. WAC is using the input signal of mechanical power ΔPmi and electrical power ΔPei from generator, while the output of WAC is the signal control which injected to the AVR ΔVwi. A two-area-four-generator is utilized as a tested system to evaluate the performance of the proposed method. From the simulation results that has been conducted, the proposed method can reduce the overshoot and compress the settling time better than other methods that presented in this paper.

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来源期刊

2013 International Conference on Information Technology and Electrical Engineering (ICITEE)

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