论文信息 - Control reconfiguration of full-state linearizable systems by a virtual actuator

Control reconfiguration of full-state linearizable systems by a virtual actuator

Abstract This paper presents a new method for control reconfiguration of nonlinear, input-affine systems subject to actuator failures. For full-state linearizable systems it is shown that after the occurrence of an actuator failure the linearizing feedback has to be adapted to the failure case. In a second step, the reconfiguration of the re-linearized system can be accomplished by means of a static linear virtual actuator. An interesting observation is the fact that the faulty system stays reconfigurable as long as there is one actuator left in the faulty plant. This paper illustrates the method by considering a fluid process.

[1] Jakob Stoustrup,et al. Control reconfiguration of LPV systems using virtual sensor and actuator , 2012 .

[2] Damiano Rotondo,et al. FDI and FTC of wind turbines using the interval observer approach and virtual actuators/sensors , 2014 .

[3] Damiano Rotondo,et al. A Virtual Actuator Approach for Fault Tolerant Control of Switching LPV Systems , 2014 .

[4] José A. De Doná,et al. Bank of virtual actuators for fault tolerant control , 2011 .

[5] José A. De Doná,et al. Virtual actuator for Lure systems with Lipschitz-continuous nonlinearity , 2012 .

[6] Damiano Rotondo,et al. A virtual actuator and sensor approach for fault tolerant control of LPV systems , 2014 .

[7] Jan Lunze,et al. Experimental evaluation of a fault-tolerant plug-and-play controller , 2014, 2014 European Control Conference (ECC).

[8] José A. De Doná,et al. Fault tolerant control using virtual actuators and set‐separation detection principles , 2012 .

[9] José A. De Doná,et al. Set-based Fault-Tolerant Control of Convex Polytopic LPV Systems using a Bank of Virtual Actuators , 2014 .