Title :
Control design for LPV systems with input saturation and state constraints: An application to a semi-active suspension
Author :
Do, A.L. ; Silva, J. M Gomes da, Jr. ; Sename, O. ; Dugard, L.
Author_Institution :
Control Syst. Dept., Grenoble INP, St. Martin d´´Hères, France
Abstract :
This paper proposes a control design strategy for LPV systems subject to additive disturbances in the presence of actuator saturation and state constraints. LMI conditions are derived in order to simultaneously compute an LPV controller and an anti-windup gain that ensures the boundedness of the trajectories, considering that the disturbances belong to a given admissible set. The disturbance attenuation is addressed via an H∞ constraint. Besides, state constraints (corresponding to the local validity of the LPV model and system structural limits) are always assured. The theoretical results are applied to a quarter-car model rewritten in the LPV framework where the passivity constraint is recast to the saturation one. The interest of the provided methodology is emphasized by simulations.
Keywords :
H∞ control; actuators; control system synthesis; linear matrix inequalities; suspensions (mechanical components); H∞ constraint; LMI conditions; LPV controller; LPV systems; actuator saturation; additive disturbances; anti-windup gain; control design strategy; disturbance attenuation; input saturation; passivity constraint; quarter-car model; semi-active suspension; state constraints; system structural limits; Linear matrix inequalities; Roads; Shock absorbers; Symmetric matrices; Trajectory;
Conference_Titel :
Decision and Control and European Control Conference (CDC-ECC), 2011 50th IEEE Conference on
Conference_Location :
Orlando, FL
Print_ISBN :
978-1-61284-800-6
Electronic_ISBN :
0743-1546
DOI :
10.1109/CDC.2011.6160921
