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ROBUST AND OPTIMAL FUZZY CONTROL : A LINEAR MATRIX INEQUALITY APPROACH

机译：鲁棒和最优模糊控制：一种线性矩阵不等式方法

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This paper presents a mixed control design of robust fuzzy control and optimal fuzzy control based on relaxed stability conditions represented by linear matrix inequalities (LMIs). A robust fuzzy controller is designed so as to maximize the norm of the uncertain blocks in a Takagi-Sugeno fuzzy model. Next, an optimal fuzzy controller is designed by solving the minimization problem that minimizes the upper bound of a given quadratic performance index. A mixed control problem that simultaneously considers both of them is defined and is efficiently solved via convex optimization techniques based on LMIs. Finally, a design example for a nonlinear control benchmark problem demonstrates the utility of the mixed control problem based on LMIs.

机译：本文提出了一种基于线性矩阵不等式（LMI）表示的松弛稳定条件的鲁棒模糊控制和最优模糊控制的混合控制设计。设计了鲁棒的模糊控制器，以使Takagi-Sugeno模糊模型中的不确定块的范数最大化。接下来，通过解决使给定二次性能指标的上限最小化的最小化问题来设计最佳模糊控制器。定义了同时考虑这两个方面的混合控制问题，并通过基于LMI的凸优化技术有效地解决了该问题。最后，一个非线性控制基准问题的设计实例证明了基于LMI的混合控制问题的实用性。

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《Triennial world congress of IFAC》|1999年|213-218|共6页
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Kazuo Tanaka; Tadanari Taniguchi; Hua O. Wang;
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中图分类自动化系统;
关键词
robust fuzzy control; optimal fuzzy control; mixed control problem; relaxed stability conditions; linear matrix inequality;

机译：鲁棒的模糊控制;最佳模糊控制;混合控制问题;宽松的稳定性条件;线性矩阵不等式;

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4. Robust and optimal fuzzy control: A linear matrix inequality approach [C] . Kazuo Tanaka, Tadanari Taniguchi, Hua O.Wang Triennial world congress of IFAC . 1999

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ROBUST AND OPTIMAL FUZZY CONTROL : A LINEAR MATRIX INEQUALITY APPROACH

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