Paper Info
Title
Design of polynomial fuzzy observer-controller with membership functions using unmeasurable premise variables for nonlinear systems.
Abstract
In this paper, the stability of polynomial fuzzy-model-based (PFMB) observer-control system is investigated via Lyapunov stability theory. The polynomial fuzzy observer with unmeasurable premise variables is designed to estimate the system states. Then the estimated system states are used for the state-feedback control of nonlinear systems. Although the consideration of the polynomial fuzzy model and unmeasurable premise variables enhances the applicability of the fuzzy-model-based (FMB) control strategy, it leads to non-convex stability conditions. Therefore, the refined completing square approach is proposed to derive convex stability conditions in the form of sum of squares (SOS) with less manually designed parameters. In addition, the membership functions of the polynomial observer-controller are optimized by the improved gradient descent method, which outperforms the widely applied parallel distributed compensation (PDC) approach according to a general performance index. Simulation examples are provided to verify the proposed design and optimization scheme.
Year
DOI
Venue
2016
10.1016/j.ins.2016.03.038
Inf. Sci.
Keywords
Field
DocType
Polynomial fuzzy observer–controller,Optimized membership functions,Unmeasurable premise variables,Nonlinear system,Sum of squares (SOS),Gradient descent
Gradient descent,Control theory,Mathematical optimization,Nonlinear system,Polynomial,Control theory,Lyapunov stability,Stability conditions,Regular polygon,Explained sum of squares,Mathematics
Journal
Volume
Issue
ISSN
355-356
C
0020-0255
Citations 
PageRank 
References 
10
0.55
34
Authors
4
Name
Order
Citations
PageRank
Chuang Liu1542.99
H. K. Lam23618193.15
Xiaojun Ban36611.77
Xudong Zhao4202794.90