Title :
Robust decoupling of car steering dynamics with arbitrary mass distribution
Author :
Ackermann, Juergen
Author_Institution :
German Aerosp. Res. Establ., Oberpfaffenhofen, Germany
fDate :
29 June-1 July 1994
Abstract :
The lateral and yaw motions of a car with active steering shall be decoupled. For an ideal longitudinal mass distribution assumption decoupling by yaw rate feedback has been shown to be robust with respect to uncertain nonlinear tire side force characteristic, velocity and vehicle mass. The restrictive mass distribution assumption is now abandoned and a generalized decoupling control law for arbitrary mass distribution is derived. A second feedback control law yields a unity transfer function from the steering wheel input to the lateral acceleration at a specific point in the front part of the car.
Keywords :
automobiles; feedback; nonlinear control systems; robust control; transfer functions; uncertain systems; active steering; arbitrary mass distribution; car steering dynamics; feedback control law; ideal longitudinal mass distribution; lateral acceleration; lateral motions; restrictive mass distribution assumption; robust decoupling; steering wheel input; uncertain nonlinear tire side force characteristic; unity transfer function; yaw motions; yaw rate feedback; Acceleration; Feedback control; Force feedback; Robustness; Tires; Transfer functions; Vehicle dynamics; Vehicles; Weight control; Wheels;
Conference_Titel :
American Control Conference, 1994
Print_ISBN :
0-7803-1783-1
DOI :
10.1109/ACC.1994.752419
