Title :
Robust non-linear controllers for automotive vehicle handling
Author :
Gil, Guillermo Pita ; Godoy, Emmanuel ; Dumur, Didier ; Marsilia, Marco ; Cregut, Samuel
Author_Institution :
RENAULT, Guyancourt, France
Abstract :
The main goal of this paper is to compute high performance controllers that will allow an automotive vehicle to follow longitudinal speed and yaw rate references. Three non-linear control techniques are explored: ℋ∞ Quasi-LPV, non-linear feedback linearization with ℋ∞ “outer” loop and non-linear feedback linearization with two optimal PIs “outer” loop. MIMO stability margins and most significant singular values plots are computed. Controllers are then discretized for implementation within an advanced non-linear simulator jointly developed by the INRETS (French institute of safe transportation research) and RENAULT. Time domain responses in closed-loop, obtained in this environment, validate the proposed control schemes.
Keywords :
H∞ control; MIMO systems; PI control; automobiles; closed loop systems; feedback; linear parameter varying systems; linearisation techniques; nonlinear control systems; road safety; robust control; ℋ∞ outer loop; ℋ∞ quasiLPV; French institute; INRETS; MIMO stability margins; RENAULT; advanced nonlinear simulator; automotive vehicle handling; closed-loop system; high performance controllers; longitudinal speed; nonlinear feedback linearization; optimal PI outer loop; robust nonlinear controller; safe transportation research; singular values plots; time domain response; yaw rate references; Automotive engineering; Decision support systems; Europe; Robustness; Vehicles;
Conference_Titel :
Control Conference (ECC), 2009 European
Conference_Location :
Budapest
Print_ISBN :
978-3-9524173-9-3
