Lap Time Simulation: Comparison of Steady State, Quasi- Static and Transient Racing Car Cornering Strategies 2000-01-3563
Considerable effort has gone into modelling the performance of the racing car by engineers in professional motorsport teams. The teams are using progressively more sophisticated quasi-static simulations to model vehicle performance. This allows optimisation of vehicle performance to be achieved in a more cost and time effective manner with a more efficient use of physical testing.
Racing cars are driven at the limit of adhesion in the non-linear area of the vehicle's handling performance. Previous simulations have modelled the transient behaviour by approximating it with a quasi-static model which ignores dynamic effects, for example yaw damping. This paper describes a comparison between different cornering modelling strategies, including steady state, quasi-static and transient. The simulation results from the three strategies are compared and evaluated for their ability to model actual racing car behaviour.
Citation: Siegler, B., Deakin, A., and Crolla, D., "Lap Time Simulation: Comparison of Steady State, Quasi- Static and Transient Racing Car Cornering Strategies," SAE Technical Paper 2000-01-3563, 2000, https://doi.org/10.4271/2000-01-3563. Download Citation
Author(s):
Blake Siegler, Andrew Deakin, David Crolla
Affiliated:
The School of Mech. Eng., The University of Leeds
Also in:
Proceedings of the 2000 SAE Motorsports Engineering Conference and Exposition-P-361, SAE 2000 Transactions Journal of Passenger Cars - Mechanical Systems-V109-6
Related Topics:
Racing vehicles
Vehicle performance
Simulators
Motorsports
Simulation and modeling
Yaw
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