An SOS-Based Control Lyapunov Function Design for Polynomial Fuzzy Control of Nonlinear Systems

被引:39
|
作者
Furqon, Radian [1 ]
Chen, Ying-Jen [2 ]
Tanaka, Motoyasu [1 ]
Tanaka, Kazuo [1 ]
Wang, Hua O. [3 ]
机构
[1] Univ Electrocommun, Dept Mech Engn & Intelligent Syst, Tokyo 1828585, Japan
[2] Natl Taipei Univ, Dept Elect Engn, New Taipei 23741, Taiwan
[3] Boston Univ, Dept Mech Engn, Boston, MA 02215 USA
来源
IEEE TRANSACTIONS ON FUZZY SYSTEMS | 2017年 / 25卷 / 04期
关键词
Control Lyapunov function (CLF); global stabilization; operation domain; polynomial fuzzy system; semiglobal stabilization; sum of squares (SOS); TAKAGI-SUGENO SYSTEMS; H-INFINITY CONTROL; STABILITY ANALYSIS; NONQUADRATIC STABILIZATION; PERFORMANCE; CRITERION; MODELS;
D O I
10.1109/TFUZZ.2016.2578339
中图分类号
TP18 [人工智能理论];
学科分类号
081104 ; 0812 ; 0835 ; 1405 ;
摘要
This paper deals with a sum-of-squares (SOS)-based control Lyapunov function (CLF) design for polynomial fuzzy control of nonlinear systems. The design starts with exactly replacing (smooth) nonlinear systems dynamics with polynomial fuzzy models, which are known as universal approximators. Next, global stabilization conditions represented in terms of SOS are provided in the framework of the CLF design, i.e., a stabilizing controller with nonparallel distributed compensation form is explicitly designed by applying Sontag's control law, once a CLF for a given nonlinear system is constructed. Furthermore, semiglobal stabilization conditions on operation domains are derived in the same fashion as in the global stabilization conditions. Both global and semiglobal stabilization problems are formulated as SOS optimization problems, which reduce to numerical feasibility problems. Five design examples are given to show the effectiveness of our proposed approach over the existing linear matrix inequality and SOS approaches.
引用
收藏
页码:775 / 787
页数:13
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