This paper presents a real-time steering system torque feedback model used in the National Advanced Driving Simulator (NADS). The vehicle model is based on real-time recursive multi-body dynamics augmented with vehicle subsystems models including tires, power train, brakes, aerodynamics and steering. The steering system feel is of paramount importance for the fidelity of the simulator. The driver has to feel the appropriate torque as he/she steers the vehicle. This paper presents a detailed mathematical model of the steering physics from low-speed stick-slip to high-speed states. On-center steering weave handling and aggressive lane change inputs are used to validate the basic mathematical predictions. This validation is objective and open loop, and was done using field experiments.
Modeling and Implementation of Steering System Feedback for the National Advanced Driving Simulator
Sae Technical Papers
SAE 2002 Automotive Dynamics & Stability Conference and Exhibition ; 2002
2002-05-07
Conference paper
English
Modeling and implementation of steering system feedback for the National Advanced Driving Simulator
Automotive engineering | 2002
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