Anti-disturbance tracking control for systems with nonlinear disturbances using T–S fuzzy modeling

This paper addresses a novel anti-disturbance dynamical tracking problem for a class of MIMO systems subject to unknown disturbances and nonlinear dynamics. Different from some traditional anti-disturbance results, T–S fuzzy models are firstly employed to describe the nonlinear disturbances, in whic...

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Published inNeurocomputing (Amsterdam) Vol. 171; pp. 1027 - 1037
Main Authors Yi, Yang, Fan, Xiang Xiang, Zhang, Tian Ping
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.01.2016
Subjects
Anti-disturbance control
Convex optimization algorithm
Disturbance observer (DO)
T–S disturbance modeling
T–S fuzzy models
Convex optimization algorithm
Anti-disturbance control
T–S disturbance modeling
T–S fuzzy models
Disturbance observer (DO)
Online AccessGet full text
ISSN0925-2312
1872-8286
DOI10.1016/j.neucom.2015.07.039

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Abstract This paper addresses a novel anti-disturbance dynamical tracking problem for a class of MIMO systems subject to unknown disturbances and nonlinear dynamics. Different from some traditional anti-disturbance results, T–S fuzzy models are firstly employed to describe the nonlinear disturbances, in which a disturbance observer based on T–S exogenous models is designed under different conditions to estimate the unknown nonlinear disturbances for the plants with known and unknown nonlinearities, respectively. By integrating the estimates of disturbance with PI-type control input, a composite controller based on convex optimization theory is proposed to ensure the system stability and convergence of the tracking error to zero. Meanwhile, the favorable disturbance estimation and attenuation performance can also be achieved by the designed convex optimization algorithm. Finally, the effectiveness of the proposed control schemes is verified by simulations for flight control systems with three different types of nonlinear disturbances.
AbstractList This paper addresses a novel anti-disturbance dynamical tracking problem for a class of MIMO systems subject to unknown disturbances and nonlinear dynamics. Different from some traditional anti-disturbance results, T–S fuzzy models are firstly employed to describe the nonlinear disturbances, in which a disturbance observer based on T–S exogenous models is designed under different conditions to estimate the unknown nonlinear disturbances for the plants with known and unknown nonlinearities, respectively. By integrating the estimates of disturbance with PI-type control input, a composite controller based on convex optimization theory is proposed to ensure the system stability and convergence of the tracking error to zero. Meanwhile, the favorable disturbance estimation and attenuation performance can also be achieved by the designed convex optimization algorithm. Finally, the effectiveness of the proposed control schemes is verified by simulations for flight control systems with three different types of nonlinear disturbances.
Author Yi, Yang
Fan, Xiang Xiang
Zhang, Tian Ping
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Keywords Convex optimization algorithm
Anti-disturbance control
T–S disturbance modeling
T–S fuzzy models
Disturbance observer (DO)
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SSID ssj0017129
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Snippet This paper addresses a novel anti-disturbance dynamical tracking problem for a class of MIMO systems subject to unknown disturbances and nonlinear dynamics....
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SubjectTerms Anti-disturbance control
Convex optimization algorithm
Disturbance observer (DO)
T–S disturbance modeling
T–S fuzzy models
Title Anti-disturbance tracking control for systems with nonlinear disturbances using T–S fuzzy modeling
URI https://dx.doi.org/10.1016/j.neucom.2015.07.039
Volume 171
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