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CLC number: TP273.1
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Received: 1999-03-12
Revision Accepted: 1999-06-15
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MODELING AND ROBUST LQ REGULATOR DESIGNING FOR REFINING PROCESS
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XUE An-ke, LU Ying-quan, SUN You-xian. MODELING AND ROBUST LQ REGULATOR DESIGNING FOR REFINING PROCESS[J]. Journal of Zhejiang University Science A, 2000, 1(2): 136-143.
@article{title="MODELING AND ROBUST LQ REGULATOR DESIGNING FOR REFINING PROCESS",
author="XUE An-ke, LU Ying-quan, SUN You-xian",
journal="Journal of Zhejiang University Science A",
volume="1",
number="2",
pages="136-143",
year="2000",
publisher="Zhejiang University Press & Springer",
doi="10.1631/jzus.2000.0136"
}
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%A SUN You-xian
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T1 - MODELING AND ROBUST LQ REGULATOR DESIGNING FOR REFINING PROCESS
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A1 - SUN You-xian
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EP - 143
%@ 1869-1951
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DOI - 10.1631/jzus.2000.0136
Abstract: This paper presents a synthetic design procedure for a robust LQ regulator for refining process, including modeling and robust optimal system designing. The paper discusses three major topics: mathematical modeling of the process with large uncertainty, determination of a synthetic performance index for optimizing the process, and design of the robust optimal system with robust guaranteed stability. This research result is a part of preliminary results of the real refining process optimal control system implemented in the Minfeng Paper Mill, Zhejiang Province. Simulation test results showed that the proposed modeling and control algorithm are efficient and practicable.
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