Optimal Design of Modified Power System Stabilizer Using Multi Objective Based Bio Inspired Algorithms

Int. J. Energy Optim. Eng. Pub Date : 2018-10-01 DOI:10.4018/IJEOE.2018100102

D. Butti, S. Mangipudi, S. Rayapudi

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引用次数: 3

Abstract

In this article, a multi objective and a novel objective based Power System Stabilizer (PSS) design is proposed for a modified Heffron - Philiphs model (MHP) using bio inspired algorithms. A conventional Heffron – Philphs (CHP) model is developed by taking infinite bus voltage as reference, whereas MHP model is developed by taking transformer high voltage bus voltage as reference, which makes independent of external system data for the PSS design. PSS parameters are optimized using differential evolution (DE) algorithm and Firefly (FF) algorithm to obtain better dynamic response. The proposed method is tested on various operating conditions under different typical disturbances to test efficacy and robustness. Simulation results prove that better dynamic performance is obtained with the proposed stabilizers over the fixed gain stabilizers. This method of tuning would become a better alternative to conventional stabilizers as conventional stabilizers require retuning of parameters mostly when operating condition changes, which is a time-consuming process and laborious. Eigen value analysis is also done to prove the efficacy of the proposed method over the conventional methods.

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基于多目标生物算法的改进型电力系统稳定器优化设计

针对改进的Heffron - Philiphs模型(MHP)，提出了一种基于目标的多目标电力系统稳定器(PSS)设计方法。传统的Heffron - Philphs (CHP)模型以无限母线电压为基准，而MHP模型以变压器高压母线电压为基准，使得PSS设计不依赖于外部系统数据。采用差分进化(DE)算法和萤火虫(FF)算法对PSS参数进行优化，以获得更好的动态响应。在不同的典型干扰条件下对该方法进行了测试，以验证其有效性和鲁棒性。仿真结果表明，该稳定器比固定增益稳定器具有更好的动态性能。由于常规稳定器需要在操作条件发生变化时重新调整参数，因此该方法将成为常规稳定器的更好选择，这是一个耗时且费力的过程。通过特征值分析，证明了该方法相对于传统方法的有效性。

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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Int. J. Energy Optim. Eng.

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