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Robust load–frequency regulation: A real‐time laboratory experiment

Identifieur interne : 000D97 ( Istex/Corpus ); précédent : 000D96; suivant : 000D98

Robust load–frequency regulation: A real‐time laboratory experiment

Auteurs : Hassan Bevrani ; Takashi Hiyama

Source :

RBID : ISTEX:445BBB224092EB145AF387EAEB01BC009389468B

English descriptors

Abstract

This paper addresses a new method for robust decentralized design of proportional‐integral‐based load–frequency control (LFC) with communication delays. In the proposed methodology, the LFC problem is reduced to a static output feedback control synthesis for a multiple delays power system, and then the control parameters are easily carried out using robust H∞ control technique. To demonstrate the efficiency of the proposed control strategy, an experimental study has been performed on the Analog Power System Simulator at the Research Laboratory of the Kyushu Electric Power Co. in Japan. Copyright © 2007 John Wiley & Sons, Ltd.

Url:
DOI: 10.1002/oca.802

Links to Exploration step

ISTEX:445BBB224092EB145AF387EAEB01BC009389468B

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<author></author>
<title>Mahmoud MS. Robust Control and Filtering for Time‐delay Systems. Marcel Dekker: New York, U.S.A., 2000.</title>
</host>
</json:item>
<json:item>
<author>
<json:item>
<name>J Aweya</name>
</json:item>
<json:item>
<name>DY Montuno</name>
</json:item>
<json:item>
<name>M Ouellette</name>
</json:item>
</author>
<host>
<volume>17</volume>
<pages>
<last>850</last>
<first>833</first>
</pages>
<author></author>
<title>International Journal of Communication Systems</title>
</host>
<title>Effects of control loop delay on the stability of a rate control algorithm</title>
</json:item>
<json:item>
<host>
<author></author>
<title>Niculescu SI. Delay Effects on Stability: A Robust Control Approach. Springer: Berlin, 2001.</title>
</host>
</json:item>
<json:item>
<author>
<json:item>
<name>S Bhowmik</name>
</json:item>
<json:item>
<name>K Tomosovic</name>
</json:item>
<json:item>
<name>A Bose</name>
</json:item>
</author>
<host>
<volume>19</volume>
<pages>
<last>548</last>
<first>543</first>
</pages>
<author></author>
<title>IEEE Transactions on Power Systems</title>
</host>
<title>Communication models for third party load frequency control</title>
</json:item>
<json:item>
<host>
<author></author>
<title>Multi‐agent based automatic generation control of isolated stand alone power system</title>
</host>
</json:item>
<json:item>
<author>
<json:item>
<name>X Yu</name>
</json:item>
<json:item>
<name>K Tomosovic</name>
</json:item>
</author>
<host>
<volume>19</volume>
<pages>
<last>1515</last>
<first>1508</first>
</pages>
<author></author>
<title>IEEE Transactions on Power Systems</title>
</host>
<title>Application of linear matrix inequalities for load frequency control with communication delays</title>
</json:item>
<json:item>
<host>
<author></author>
<title>Boyd S, Ghaoui L El, Feron E, Balakrishnan V. Linear Matrix Inequalities in Systems and Control Theory. SIAM Books: Philadelphia, 1994.</title>
</host>
</json:item>
<json:item>
<host>
<author></author>
<title>Gahinet P, Nemirovski A, Laub AJ, Chilali M. LMI Control Toolbox. The MathWorks Inc.: Natick, MA, U.S.A., 1995.</title>
</host>
</json:item>
<json:item>
<author>
<json:item>
<name>H Bevrani</name>
</json:item>
<json:item>
<name>Y Mitani</name>
</json:item>
<json:item>
<name>K Tsuji</name>
</json:item>
</author>
<host>
<volume>150</volume>
<pages>
<last>354</last>
<first>347</first>
</pages>
<author></author>
<title>IEE Proceedings—Generation Transmission and Distribution</title>
</host>
<title>Robust decentralised load–frequency control using an iterative linear matrix inequalities algorithm</title>
</json:item>
<json:item>
<author>
<json:item>
<name>P Gahinet</name>
</json:item>
<json:item>
<name>M Chilali</name>
</json:item>
</author>
<host>
<volume>41</volume>
<pages>
<last>367</last>
<first>358</first>
</pages>
<author></author>
<title>IEEE Transactions on Automatic Control</title>
</host>
<title>H∞‐design with pole placement constraints</title>
</json:item>
<json:item>
<author>
<json:item>
<name>N Jaleeli</name>
</json:item>
<json:item>
<name>DN Ewart</name>
</json:item>
<json:item>
<name>LH Fink</name>
</json:item>
</author>
<host>
<volume>7</volume>
<pages>
<last>1112</last>
<first>1106</first>
</pages>
<author></author>
<title>IEEE Transactions on Power Systems</title>
</host>
<title>Understanding automatic generation control</title>
</json:item>
<json:item>
<author>
<json:item>
<name>T Hiyama</name>
</json:item>
</author>
<host>
<volume>129</volume>
<pages>
<last>289</last>
<first>285</first>
</pages>
<author></author>
<title>IEE Proceedings—C Generation Transmission and Distribution</title>
</host>
<title>Optimization of discrete‐type load–frequency regulators considering generation‐rate constraints</title>
</json:item>
<json:item>
<author>
<json:item>
<name>D Bernstein</name>
</json:item>
</author>
<host>
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<pages>
<last>432</last>
<first>409</first>
</pages>
<author></author>
<title>Linear Algebra and its Applications</title>
</host>
<title>Some open problems in matrix theory arising in linear systems and control</title>
</json:item>
<json:item>
<author>
<json:item>
<name>V Blondel</name>
</json:item>
<json:item>
<name>M Gevers</name>
</json:item>
<json:item>
<name>A Lindquist</name>
</json:item>
</author>
<host>
<volume>1</volume>
<pages>
<last>23</last>
<first>5</first>
</pages>
<author></author>
<title>European Journal of Control</title>
</host>
<title>Survey on the state of systems and control</title>
</json:item>
<json:item>
<author>
<json:item>
<name>VL Syrmos</name>
</json:item>
<json:item>
<name>CT Abdallah</name>
</json:item>
<json:item>
<name>P Dorato</name>
</json:item>
<json:item>
<name>K Grigoriadis</name>
</json:item>
</author>
<host>
<volume>33</volume>
<pages>
<last>137</last>
<first>125</first>
</pages>
<author></author>
<title>Automatica</title>
</host>
<title>Static output feedback: a survey</title>
</json:item>
<json:item>
<host>
<author></author>
<title>Static output feedback design problems</title>
</host>
</json:item>
<json:item>
<host>
<author></author>
<title>Narendra KS, Annaswamy AM. Stable Adaptive Systems. Prentice‐Hall: Englewood Cliffs, NJ, 1989.</title>
</host>
</json:item>
<json:item>
<author>
<json:item>
<name>T Mori</name>
</json:item>
<json:item>
<name>H Kokame</name>
</json:item>
</author>
<host>
<volume>34</volume>
<pages>
<last>462</last>
<first>460</first>
</pages>
<author></author>
<title>IEEE Transactions on Automatic Control</title>
</host>
<title>Stability of ẋ(t)=Ax(t) + Bx(t − τ)</title>
</json:item>
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