Design of PID power system stabilizer using GA for SMIB system: Linear and non-linear approach

机译：基于GA的SMIB系统PID电力系统稳定器的设计：线性和非线性方法

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In this paper, low frequency oscillations in power system under the different operating conditions have been solved through PID based power system stabilizer. The tuning of the parameters of the PSS are considered as optimization problem, and the parameters are tuned using genetic search algorithm. Here forth-order linear and non-linear model of the synchronous machine (model 1.1) which includes both the generator main field winding and the damper winding in q-axis is considered for finding out the sensitivity of electromechanical modes of single machine infinite bus system. The effectiveness of automatic voltage controller, and PID-power system stabilizer are identified through eigen value analysis and participation factor method. The non-linear simulation results show the effectiveness and capability of PID-PSS for power system stability improvement under various disturbances.

机译：本文通过基于PID的电力系统稳定器解决了电力系统在不同工况下的低频振荡问题。 PSS的参数调整被认为是优化问题，并且使用遗传搜索算法对参数进行调整。在此考虑同步电机的四阶线性和非线性模型（模型1.1），该模型在q轴上同时包含发电机主磁场绕组和阻尼绕组，以找出单机无限母线系统的机电模式的灵敏度。。通过特征值分析和参与因子法确定了自动电压控制器和PID电力系统稳定器的有效性。非线性仿真结果表明PID-PSS在各种扰动下提高电力系统稳定性的有效性和能力。

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来源
《2011 International Conference on Recent Advancements in Electrical, Electronics and Control Engineering》|2011年|p.319-323|共5页
会议地点 Sivakasi(IN)
作者
Gandhi P. R.; Joshi S. K.;
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作者单位

Electrical Engineering Department, Sardar Vallabhbhai patel Institute of Technology, Vasad, Dist : Anand, India;

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会议组织
原文格式 PDF
正文语种 eng
中图分类自动化技术及设备;
关键词
Eigen value; GA; PID-PSS; non-liner analysis; synchronous machine dynamics (model 1.1);

机译：特征值; GA; PID-PSS;非线性分析;同步机器动力学（1.1型）;

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2. Comparing the Power System Stabilizer Based on Sliding Mode Control with the Fuzzy Power System Stabilizer for Single Machine Infinite Bus System (SMIB) [J] . Atabak Kolabi, Saeed Sofalgar, Toktam Lotfi, Research journal of applied science, engineering and technology . 2013,第1期

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3. Comparing the Power System Stabilizer Based on Sliding Mode Control with the Fuzzy Power System Stabilizer for Single Machine Infinite Bus System (SMIB) [J] . Research journal of applied science, engineering and technology . 2013,第1期

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4. Design of PID power system stabilizer using GA for SMIB system: Linear and non-linear approach [C] . Gandhi P. R., Joshi S. K. International Conference on Recent Advancements in Electrical, Electronics and Control Engineering . 2011

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Design of PID power system stabilizer using GA for SMIB system: Linear and non-linear approach

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