Stabilizing switching control for nonlinear system based on quasi-ARX RBFN model

Lan Wang; Yu Cheng; Jinglu Hu

doi:10.1002/tee.21745

Stabilizing switching control for nonlinear system based on quasi-ARX RBFN model

Lan Wang, Yu Cheng, Jinglu Hu^*

^*Corresponding author for this work

Graduate School of Information, Production and Systems

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

In this paper, a fuzzy switching adaptive control approach is presented for nonlinear systems. The proposed fuzzy switching adaptive control law is composed of a quasi-ARX radial basis function network (RBFN) prediction model and a fuzzy switching mechanism. The quasi-ARX RBFN prediction model consists of two parts: a linear part used for a linear controller to ensure boundedness of the input and output signals; and an RBFN nonlinear part used to improve control accuracy. By using the fuzzy switching scheme between the linear and nonlinear controllers to replace the 0/1 switching, it can realize a better balance between stability and accuracy. Theoretical analysis and simulation results show the effectiveness of the proposed control method on the stability, accuracy, and robustness.

Original language	English
Pages (from-to)	390-396
Number of pages	7
Journal	IEEJ Transactions on Electrical and Electronic Engineering
Volume	7
Issue number	4
DOIs	https://doi.org/10.1002/tee.21745
Publication status	Published - 2012 Jul

Keywords

Fuzzy switching mechanism
Quasi-ARX prediction model
Radial basis function network
Stabilizing switching control

ASJC Scopus subject areas

Electrical and Electronic Engineering

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10.1002/tee.21745

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abstract = "In this paper, a fuzzy switching adaptive control approach is presented for nonlinear systems. The proposed fuzzy switching adaptive control law is composed of a quasi-ARX radial basis function network (RBFN) prediction model and a fuzzy switching mechanism. The quasi-ARX RBFN prediction model consists of two parts: a linear part used for a linear controller to ensure boundedness of the input and output signals; and an RBFN nonlinear part used to improve control accuracy. By using the fuzzy switching scheme between the linear and nonlinear controllers to replace the 0/1 switching, it can realize a better balance between stability and accuracy. Theoretical analysis and simulation results show the effectiveness of the proposed control method on the stability, accuracy, and robustness.",

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author = "Lan Wang and Yu Cheng and Jinglu Hu",

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T1 - Stabilizing switching control for nonlinear system based on quasi-ARX RBFN model

AU - Wang, Lan

AU - Cheng, Yu

AU - Hu, Jinglu

PY - 2012/7

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N2 - In this paper, a fuzzy switching adaptive control approach is presented for nonlinear systems. The proposed fuzzy switching adaptive control law is composed of a quasi-ARX radial basis function network (RBFN) prediction model and a fuzzy switching mechanism. The quasi-ARX RBFN prediction model consists of two parts: a linear part used for a linear controller to ensure boundedness of the input and output signals; and an RBFN nonlinear part used to improve control accuracy. By using the fuzzy switching scheme between the linear and nonlinear controllers to replace the 0/1 switching, it can realize a better balance between stability and accuracy. Theoretical analysis and simulation results show the effectiveness of the proposed control method on the stability, accuracy, and robustness.

AB - In this paper, a fuzzy switching adaptive control approach is presented for nonlinear systems. The proposed fuzzy switching adaptive control law is composed of a quasi-ARX radial basis function network (RBFN) prediction model and a fuzzy switching mechanism. The quasi-ARX RBFN prediction model consists of two parts: a linear part used for a linear controller to ensure boundedness of the input and output signals; and an RBFN nonlinear part used to improve control accuracy. By using the fuzzy switching scheme between the linear and nonlinear controllers to replace the 0/1 switching, it can realize a better balance between stability and accuracy. Theoretical analysis and simulation results show the effectiveness of the proposed control method on the stability, accuracy, and robustness.

KW - Fuzzy switching mechanism

KW - Quasi-ARX prediction model

KW - Radial basis function network

KW - Stabilizing switching control

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Stabilizing switching control for nonlinear system based on quasi-ARX RBFN model

Abstract

Keywords

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