Drivers’ Controlled Stimuli in Nonlinear Vehicle Dynamics Driving Simulation

Thomas Schwarzhuber; Julian von Schleinitz; Hannes Geiser; Michael Graf; Arno Eichberger

Drivers’ Controlled Stimuli in Nonlinear Vehicle Dynamics Driving Simulation

Thomas Schwarzhuber, Julian von Schleinitz, Hannes Geiser, Michael Graf, Arno Eichberger

Institute of Automotive Engineering (3310)

Research output: Chapter in Book/Report/Conference proceeding › Conference paper › peer-review

Abstract

Motion Stimuli in driving simulation aim to increase simulator fidelity and immersion by providing vehicle state information to the driver. Currently, there is no fully confirmed knowledge about which cues a driver processes to vehicle state anticipation in nonlinear vehicle dynamics. This paper introduces a Tire Potential Exploitation Rating (TPER) suitable for objective motion cueing evaluation in nonlinear vehicle dynamics driving simulation. TPER takes full knowledge about vehicle model and tire characteristics as a basis to define a distance concept between quasi-stationary, present vehicle state and the vehicle’s performance limits. The method is applied in an experiment with professional race car drivers. The driving tasks are executed with and without motion cues and metrics are derived from the raw ouput data of the TPER. The results show that the proposed method provides reliable information on the motion stimuli dependent exploitation of maximum vehicle capabilities. In contrast to other objective performance indicators, the metrics show similar effects between participants and driving tasks. The repeatability of results together with the temporal resolution of the rating method can make TPER a powerful
tool for future investigations on simulator fidelity in nonlinear vehicle dynamics.

Original language	English
Title of host publication	Proceedings of the Driving Simulation Conference 2020
Publisher	Driving Simulation Association
Pages	45
Number of pages	52
Publication status	Published - 10 Sept 2020
Event	DSC 2020 EUROPE VR: 19th Driving Simulation & Virtual Reality Conference & Exhibition - Palais des Congrès, Antibes, France Duration: 9 Sept 2020 → 11 Sept 2020 http://dsc2020.org/

Conference

Conference	DSC 2020 EUROPE VR
Abbreviated title	DSC 2020
Country/Territory	France
City	Antibes
Period	9/09/20 → 11/09/20
Internet address	http://dsc2020.org/

Keywords

driving simulation
motion cueing
objective rating
nonlinear vehicle dynamics
motion stimuli

ASJC Scopus subject areas

Automotive Engineering

Fields of Expertise

Mobility & Production

Treatment code (Nähere Zuordnung)

Experimental

Access to Document

https://proceedings.driving-simulation.org/proceeding/dsc-2020/identification-of-drivers-controlled-stimuli-in-nonlinear-vehicle-dynamics-driving-simulation/

1 Active

DVS: Vehicle Dynamics
Koglbauer, I. V., Lex, C., Shao, L., Semmer, M., Rogic, B., Peer, M., Hackl, A., Sternat, A. S., Schabauer, M., Samiee, S., Eichberger, A., Ager, M., Malić, D., Wohlfahrter, H., Scherndl, C., Magosi, Z. F., Orucevic, F., Puščul, D., Arefnezhad, S., Karoshi, P., Schöttel, C. E., Pandurevic, A., Harcevic, A., Wellershaus, C., Li, H., Mihalj, T., Kanuric, T., Gu, Z., Wallner, D., De Cristofaro, F., Soboleva, K., Nalic, D., Bernsteiner, S., Kraus, H., Zhao, Y., Bodner, J., Bui, D. T., Hirschberg, W., Plöckinger, M. & Khoshnood Sarabi, N.
1/01/11 → …
Project: Research area

Cite this

Schwarzhuber, T., von Schleinitz, J., Geiser, H., Graf, M., & Eichberger, A. (2020). Drivers’ Controlled Stimuli in Nonlinear Vehicle Dynamics Driving Simulation. In Proceedings of the Driving Simulation Conference 2020 (pp. 45). Driving Simulation Association. https://proceedings.driving-simulation.org/proceeding/dsc-2020/identification-of-drivers-controlled-stimuli-in-nonlinear-vehicle-dynamics-driving-simulation/

Schwarzhuber, T, von Schleinitz, J, Geiser, H, Graf, M & Eichberger, A 2020, Drivers’ Controlled Stimuli in Nonlinear Vehicle Dynamics Driving Simulation. in Proceedings of the Driving Simulation Conference 2020. Driving Simulation Association, pp. 45, DSC 2020 EUROPE VR, Antibes, France, 9/09/20. <https://proceedings.driving-simulation.org/proceeding/dsc-2020/identification-of-drivers-controlled-stimuli-in-nonlinear-vehicle-dynamics-driving-simulation/>

@inproceedings{d105c7ab38634c18bea41ba10274e07f,

title = "Drivers{\textquoteright} Controlled Stimuli in Nonlinear Vehicle Dynamics Driving Simulation",

abstract = " Motion Stimuli in driving simulation aim to increase simulator fidelity and immersion by providing vehicle state information to the driver. Currently, there is no fully confirmed knowledge about which cues a driver processes to vehicle state anticipation in nonlinear vehicle dynamics. This paper introduces a Tire Potential Exploitation Rating (TPER) suitable for objective motion cueing evaluation in nonlinear vehicle dynamics driving simulation. TPER takes full knowledge about vehicle model and tire characteristics as a basis to define a distance concept between quasi-stationary, present vehicle state and the vehicle{\textquoteright}s performance limits. The method is applied in an experiment with professional race car drivers. The driving tasks are executed with and without motion cues and metrics are derived from the raw ouput data of the TPER. The results show that the proposed method provides reliable information on the motion stimuli dependent exploitation of maximum vehicle capabilities. In contrast to other objective performance indicators, the metrics show similar effects between participants and driving tasks. The repeatability of results together with the temporal resolution of the rating method can make TPER a powerfultool for future investigations on simulator fidelity in nonlinear vehicle dynamics. ",

keywords = "motor sports, driving simulator study, driving style, driving simulation, motion cueing, objective rating, nonlinear vehicle dynamics, motion stimuli",

author = "Thomas Schwarzhuber and {von Schleinitz}, Julian and Hannes Geiser and Michael Graf and Arno Eichberger",

year = "2020",

month = sep,

day = "10",

language = "English",

pages = "45",

booktitle = "Proceedings of the Driving Simulation Conference 2020",

publisher = "Driving Simulation Association",

note = "DSC 2020 EUROPE VR : 19th Driving Simulation & Virtual Reality Conference & Exhibition, DSC 2020 ; Conference date: 09-09-2020 Through 11-09-2020",

url = "http://dsc2020.org/",

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T1 - Drivers’ Controlled Stimuli in Nonlinear Vehicle Dynamics Driving Simulation

AU - Schwarzhuber, Thomas

AU - von Schleinitz, Julian

AU - Geiser, Hannes

AU - Graf, Michael

AU - Eichberger, Arno

PY - 2020/9/10

Y1 - 2020/9/10

N2 - Motion Stimuli in driving simulation aim to increase simulator fidelity and immersion by providing vehicle state information to the driver. Currently, there is no fully confirmed knowledge about which cues a driver processes to vehicle state anticipation in nonlinear vehicle dynamics. This paper introduces a Tire Potential Exploitation Rating (TPER) suitable for objective motion cueing evaluation in nonlinear vehicle dynamics driving simulation. TPER takes full knowledge about vehicle model and tire characteristics as a basis to define a distance concept between quasi-stationary, present vehicle state and the vehicle’s performance limits. The method is applied in an experiment with professional race car drivers. The driving tasks are executed with and without motion cues and metrics are derived from the raw ouput data of the TPER. The results show that the proposed method provides reliable information on the motion stimuli dependent exploitation of maximum vehicle capabilities. In contrast to other objective performance indicators, the metrics show similar effects between participants and driving tasks. The repeatability of results together with the temporal resolution of the rating method can make TPER a powerfultool for future investigations on simulator fidelity in nonlinear vehicle dynamics.

AB - Motion Stimuli in driving simulation aim to increase simulator fidelity and immersion by providing vehicle state information to the driver. Currently, there is no fully confirmed knowledge about which cues a driver processes to vehicle state anticipation in nonlinear vehicle dynamics. This paper introduces a Tire Potential Exploitation Rating (TPER) suitable for objective motion cueing evaluation in nonlinear vehicle dynamics driving simulation. TPER takes full knowledge about vehicle model and tire characteristics as a basis to define a distance concept between quasi-stationary, present vehicle state and the vehicle’s performance limits. The method is applied in an experiment with professional race car drivers. The driving tasks are executed with and without motion cues and metrics are derived from the raw ouput data of the TPER. The results show that the proposed method provides reliable information on the motion stimuli dependent exploitation of maximum vehicle capabilities. In contrast to other objective performance indicators, the metrics show similar effects between participants and driving tasks. The repeatability of results together with the temporal resolution of the rating method can make TPER a powerfultool for future investigations on simulator fidelity in nonlinear vehicle dynamics.

KW - motor sports

KW - driving simulator study

KW - driving style

KW - driving simulation

KW - motion cueing

KW - objective rating

KW - nonlinear vehicle dynamics

KW - motion stimuli

M3 - Conference paper

SP - 45

BT - Proceedings of the Driving Simulation Conference 2020

PB - Driving Simulation Association

T2 - DSC 2020 EUROPE VR

Y2 - 9 September 2020 through 11 September 2020

ER -

Drivers’ Controlled Stimuli in Nonlinear Vehicle Dynamics Driving Simulation

Abstract

Conference

Keywords

ASJC Scopus subject areas

Fields of Expertise

Treatment code (Nähere Zuordnung)

Access to Document

Fingerprint

Projects

DVS: Vehicle Dynamics

Cite this