An LMI approach to fault-tolerant control of uncertain systems

Author

Chen, J. ; Patton, R.J. ; Chen, Z.

Author_Institution

Dept. of Mech. Eng., Brunel Univ., Uxbridge, UK

fYear

1998

fDate

14-17 Sep 1998

Firstpage

175

Lastpage

180

Abstract

In this paper, the robust fault-tolerant control problem is formulated in an linear matrix inequality (LMI) setting, in which satisfactory performance and guarantees stability robustness are introduced. To achieve both performance and stability robustness, a multiobjective approach is used to establish a matrix inequality formulation for fault-tolerant control system design which is based on the assumption that both fault effect factors and uncertainties can be of linear-fractional-transformation parameter dependence. An example of flight control system is used to demonstrates the design technique presented in this paper

Keywords

aircraft control; control system synthesis; fault tolerance; matrix algebra; optimisation; robust control; transforms; uncertain systems; fault-tolerant control; flight control system; linear matrix inequality; linear-fractional-transformation; multiobjective optimisation; robust control; robustness; stability; uncertain systems; Actuators; Control system synthesis; Control systems; Fault detection; Fault tolerant systems; Linear matrix inequalities; Robust control; Robust stability; Uncertain systems; Uncertainty;

fLanguage

English

Publisher

ieee

Conference_Titel

Intelligent Control (ISIC), 1998. Held jointly with IEEE International Symposium on Computational Intelligence in Robotics and Automation (CIRA), Intelligent Systems and Semiotics (ISAS), Proceedings

Conference_Location

Gaithersburg, MD

ISSN

2158-9860

Print_ISBN

0-7803-4423-5

Type

conf

DOI

10.1109/ISIC.1998.713656

Filename

713656