Replication of Near-Limit Lateral Vehicle Dynamics in a Four DOF Driving Simulator
Authors:
Thomas Schwarzhuber, Lukas Wörle, Michael Graf, Arno Eichberger
Keywords:
motorsport, driving simulation, motion cueing, human factors, lateral vehicle dynamics
Abstract:
Cite this article
Schwarzhuber T.; Wörle L.; Graf M. and Eichberger A. Replication of Near-Limit Lateral Vehicle Dynamics in a Four DOF Driving Simulator In: Proceedings of the Driving Simulation Conference 2021 Europe VR, Driving Simulation Association, Munich, Germany, 2021, pp. 159-163
@inproceedings{Schwarzhuber2021, title = {Replication of Near-Limit Lateral Vehicle Dynamics in a Four DOF Driving Simulator}, author = {Thomas Schwarzhuber and Lukas Wörle and Michael Graf and Arno Eichberger}, editor = {Andras Kemeny and Jean-Rémy Chardonnet and Florent Colombet}, year = {2021}, date = {2021-09-14}, booktitle = {Proceedings of the Driving Simulation Conference 2021 Europe VR}, pages = {159-163}, address = {Munich, Germany}, organization = {Driving Simulation Association}, abstract = {The requirements for a Motion Cueing Algorithm (MCA) are highly use case dependent. Most driving simulators focus on urban or highway scenarios where little attention is paid to near-limit vehicle operation. In professional motorsport, this state is omnipresent and accompanied by sustained accelerations above 10 m/s2. To allow racing drivers consistent exploitation of vehicle performance, motion cues are required which provide detailed information on vehicle states and stability. Within this work, yaw rotation and lateral acceleration are considered to replicate characteristics of near-limit lateral vehicle dynamics. Existing approaches are evaluated on a theoretical basis and a novel MCA is proposed. The motion reference generation is based on the separation of quasi-static and dynamic vehicle states. As a result, reference tracking becomes a feasible subtask of the MCA and tuning parameters retain a physical meaning. The theoretical study based on simulation refers to a four degrees of freedom motion system which is limited to heave, pitch, roll and yaw motion. The results indicate qualitatively similar yaw rate demands compared to existing MCAs. However, the similarity of vehicle and simulator response in terms of yaw acceleration characteristics is increased by 12 %. To further evalute these findings, an experimental study design is proposed.}, keywords = {driving simulation, human factors, lateral vehicle dynamics, motion cueing, motorsport}, }
TY - CONF TI - Replication of Near-Limit Lateral Vehicle Dynamics in a Four DOF Driving Simulator AU - Schwarzhuber, Thomas AU - Wörle, Lukas AU - Graf, Michael AU - Eichberger, Arno C1 - Munich, Germany C3 - Proceedings of the Driving Simulation Conference 2021 Europe VR DA - 2021/09/14 PY - 2021 SP - 159 EP - 163 LA - en-US PB - Driving Simulation Association L2 - https://proceedings.driving-simulation.org/proceeding/dsc-2021/replication-of-near-limit-lateral-vehicle-dynamics-in-a-four-dof-driving-simulator ER -
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