Title :
Fault-Tolerant Control design using a virtual sensor for LPV systems
Author :
De Oca, Sául Montes ; Puig, Vicenç
Author_Institution :
Autom. Control Dept., Tech. Univ. of Catalonia (UPC), Barcelona, Spain
Abstract :
In this paper, a Fault Tolerant Control (FTC) strategy using a virtual sensor for Linear Parameter Varying (LPV) systems is proposed. The main idea of this FTC method is to reconfigure the control loop such such that the nominal controller could be still used without need of retuning it. That is, the plant with the sensor fault is modified adding the virtual sensor block that masks this fault and allows the controller to see the same plant as before the fault. This virtual sensor is designed using polytopic LPV techniques and Linear Matrix Inequalities (LMIs). The LPV state feedback controller is designed for quadratic H2/H∞ performance using a polytopic representation of the system that leads to solve a finite number of algebraic LMIs. To assess the performance of the proposed approach a two degree of freedom helicopter is used.
Keywords :
H∞ control; control system synthesis; fault diagnosis; fault tolerance; linear matrix inequalities; linear systems; state feedback; FTC strategy; H∞ performance; LMI; LPV state feedback controller; LPV system; fault-tolerant control; linear matrix inequalities; linear parameter varying system; polytopic LPV technique; quadratic H2 performance; virtual sensor; Approximation methods; Control systems; Fault tolerant systems; Linear matrix inequalities; Observers; Rotors; Transmission line measurements; Fault Tolerant Control; Linear Matrix Inequality; Linear Parameter Varying; Quadratic H2/H∞ Performance; Virtual Sensor;
Conference_Titel :
Control and Fault-Tolerant Systems (SysTol), 2010 Conference on
Conference_Location :
Nice
Print_ISBN :
978-1-4244-8153-8
DOI :
10.1109/SYSTOL.2010.5676027
