while Vehicle Dynamics Control systems usually operate on the engine torque and on brake pressures, new automotive applications try to use semi-active or active differentials in order to optimize the torque distribution on the wheels for traction maximization, driving comfort, stability and safety of the vehicle. The system presented in the paper comes out from the cooperation of Ferrari, MAGNA STEYR and Politecnico di Milano in the development of a semi-active differential. In the paper a description of either the physical layout of the system, its capabilities, and of the control software is given. Experimental results on an existent vehicle are shown.
‡GTV Vehicle Dynamics S.r.L §Ferrari Auto S.p.A., Road Tests Department, Vehicle Dynamics Although VDC systems usually operate on the engine torque and on brake pressures [Van Zanten, A.T., yaw moment control law for improved vehicle handling. Mechatronics 13.] new automotive applications try to use semi-active or active differentials in order to optimize the torque distribution on the wheels for traction maximization, driving comfort, stability, and safety of the vehicle. The system presented in the article comes from the cooperation of Ferrari S.p.A. and Politecnico di Milano in the development of a new semi-active differential. In the article, a description of the vehicle dynamic control strategy, its development, and experimental results are presented.
Race cars undergo very quick ride height changes on the track, which are induced by breaking, acceleration, cornering, as well as bumps on the track. It has recently been shown in wind tunnel tests that these quick changes in model attitude can lead to astonishingly large hysteresis effects on the aerodynamic coefficients. In order to verify whether such effects may be relevant to the overall performance of a car, aerodynamic data from wind tunnel tests with a moving model was fed into a vehicle dynamics simulation program. Relevant changes in estimated car performance on straight as well as on curved tracks are reported.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.