Robust H∞ control of Theodorsen's lift model for a pitching and plunging airfoil using linear matrix inequality approach

Zhicheng Li; Ramesh K. Agarwal; Huijun Gao

doi:10.1177/0954410014540622

Robust H∞ control of Theodorsen's lift model for a pitching and plunging airfoil using linear matrix inequality approach

Zhicheng Li, Ramesh K. Agarwal, Huijun Gao

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

2 Scopus citations

Abstract

This paper develops a robust H∞ controller for a pitching and plunging airfoil using the state space representation of Theodorsen's lift model employing the linear matrix inequalities method. Both parameter uncertainty and the input disturbances are considered in the model. The existence condition for the robust H∞ state-feedback controller is obtained using the Lyapunov functional approach. In practical systems, it is difficult to obtain all the states of the model needed for the controller. Thus, the observer existence condition is proposed to provide the states' information for the model. Several examples are used to demonstrate the effectiveness of the designed controller and the designed observer.

Original language	English
Pages (from-to)	851-866
Number of pages	16
Journal	Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering
Volume	229
Issue number	5
DOIs	https://doi.org/10.1177/0954410014540622
State	Published - Apr 30 2015

Keywords

Theodorsen model
Unsteady aerodynamics
linear matrix inequality
pitching and plunging airfoil
robust H∞ control

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10.1177/0954410014540622

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title = "Robust H∞ control of Theodorsen's lift model for a pitching and plunging airfoil using linear matrix inequality approach",

abstract = "This paper develops a robust H∞ controller for a pitching and plunging airfoil using the state space representation of Theodorsen's lift model employing the linear matrix inequalities method. Both parameter uncertainty and the input disturbances are considered in the model. The existence condition for the robust H∞ state-feedback controller is obtained using the Lyapunov functional approach. In practical systems, it is difficult to obtain all the states of the model needed for the controller. Thus, the observer existence condition is proposed to provide the states' information for the model. Several examples are used to demonstrate the effectiveness of the designed controller and the designed observer.",

keywords = "Theodorsen model, Unsteady aerodynamics, linear matrix inequality, pitching and plunging airfoil, robust H∞ control",

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Robust H∞ control of Theodorsen's lift model for a pitching and plunging airfoil using linear matrix inequality approach. / Li, Zhicheng; Agarwal, Ramesh K.; Gao, Huijun.
In: Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, Vol. 229, No. 5, 30.04.2015, p. 851-866.

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

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T1 - Robust H∞ control of Theodorsen's lift model for a pitching and plunging airfoil using linear matrix inequality approach

AU - Li, Zhicheng

AU - Agarwal, Ramesh K.

AU - Gao, Huijun

N1 - Publisher Copyright: © IMechE 2014.

PY - 2015/4/30

Y1 - 2015/4/30

N2 - This paper develops a robust H∞ controller for a pitching and plunging airfoil using the state space representation of Theodorsen's lift model employing the linear matrix inequalities method. Both parameter uncertainty and the input disturbances are considered in the model. The existence condition for the robust H∞ state-feedback controller is obtained using the Lyapunov functional approach. In practical systems, it is difficult to obtain all the states of the model needed for the controller. Thus, the observer existence condition is proposed to provide the states' information for the model. Several examples are used to demonstrate the effectiveness of the designed controller and the designed observer.

AB - This paper develops a robust H∞ controller for a pitching and plunging airfoil using the state space representation of Theodorsen's lift model employing the linear matrix inequalities method. Both parameter uncertainty and the input disturbances are considered in the model. The existence condition for the robust H∞ state-feedback controller is obtained using the Lyapunov functional approach. In practical systems, it is difficult to obtain all the states of the model needed for the controller. Thus, the observer existence condition is proposed to provide the states' information for the model. Several examples are used to demonstrate the effectiveness of the designed controller and the designed observer.

KW - Theodorsen model

KW - Unsteady aerodynamics

KW - linear matrix inequality

KW - pitching and plunging airfoil

KW - robust H∞ control

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Robust H∞ control of Theodorsen's lift model for a pitching and plunging airfoil using linear matrix inequality approach

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