Title :
Fault-tolerant control by using lexicographic multi-objective optimization
Author :
Miksch, Tobias ; Gambier, Adrian
Author_Institution :
BMW Group, Munich, Germany
Abstract :
The effect of component malfunction can be highly problematic for the normal operation of a control system particularly in the case of safety critical applications. Consequently, it is unrealistic to ignore during the control system design that faults can occur. It has been shown that Model-based Predictive Controllers (MPC) have good properties for fault-tolerance. However, an exhaustive analysis of faults in the real-time operation can lead to bad performance and even to controller infeasibility. In order to simplify the controller implementation and to overcome the mentioned difficulties, the control objectives for a plant under fault influence are prioritized according to required, degraded and unacceptable performances. In addition, a scheme for handling prioritized objectives based on the lexicographic multi-objective optimization together with a ℓ1-norm-MPC is proposed.
Keywords :
control system synthesis; fault tolerance; optimisation; predictive control; real-time systems; L1-norm-MPC; component malfunction effect; control system design; controller implementation; controller infeasibility; fault analysis; fault influence; fault tolerant control; lexicographic multiobjective optimization; model-based predictive controller; real-time operation; safety critical application; unacceptable performance; Actuators; Conductivity; Fault tolerance; Fault tolerant systems; Optimization; Reverse osmosis; Valves; MPC; fault tolerance; lexicographic algorithm;
Conference_Titel :
Control Conference (ASCC), 2011 8th Asian
Conference_Location :
Kaohsiung
Print_ISBN :
978-1-61284-487-9
Electronic_ISBN :
978-89-956056-4-6
