Adaptive Actuator Fault Compensation for Nonlinear Time-Delay Systems

Author

Ye, Dan ; Yang, Guang-hong

Author_Institution

Coll. of Inf. Sci. & Eng., Northeastern Univ., Shenyang

Volume

1

fYear

0

fDate

0-0 0

Firstpage

285

Lastpage

289

Abstract

This paper deals with the problem of adaptive fault-tolerant control against unknown actuator faults for a class of disturbance driven nonlinear time-delay systems. The actuator faults are types of loss of effectiveness. The aim is to find an adaptive fault tolerant controller, such that the system is not only stabilized, but also the state vectors of normal and fault cases with disturbance track that of the normal case without disturbance, which has the designed performance. A new delay-dependent adaptive law is proposed to design the adaptive reconfigurable controller, which is excited to offset the effect of faults and disturbance automatically without the need for an FDI mechanism. Numerical and simulation results are provided to demonstrate the effectiveness of the proposed adaptive controller

Keywords

adaptive control; control system synthesis; delay systems; delays; fault diagnosis; fault tolerance; linear matrix inequalities; nonlinear control systems; stability; adaptive actuator fault compensation; adaptive fault-tolerant control; adaptive reconfigurable controller; control design; disturbance driven nonlinear time-delay systems; linear matrix inequality; stability; state vectors; Actuators; Adaptive control; Automatic control; Control systems; Delay effects; Fault detection; Fault tolerant systems; Nonlinear control systems; Numerical simulation; Programmable control; Actuator fault; adaptive control; linear matrix inequality (LMI); nonlinear system; time-delay;

fLanguage

English

Publisher

ieee

Conference_Titel

Intelligent Control and Automation, 2006. WCICA 2006. The Sixth World Congress on

Conference_Location

Dalian

Print_ISBN

1-4244-0332-4

Type

conf

DOI

10.1109/WCICA.2006.1712318

Filename

1712318