Authors:
Tian Zheng, Mathias Pechinger, Johannes Lindner, Klaus Bogenberger
Keywords:
bicycle simulator, simulator validation, microscopic traffic flow simulation, virtual reality, human-in-theloop study
Abstract:
Zheng T.; Pechinger M.; Lindner J. and Bogenberger K. Validating Bicycle Simulators Active Steering in a CAVE Virtual-Reality environment In: Proceedings of the Driving Simulation Conference 2025 Europe XR, Driving Simulation Association, Stuttgart, Germany, 2025, pp. 171-178
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@inproceedings{Zheng2025,
title = {Validating Bicycle Simulators Active Steering in a CAVE Virtual-Reality environment},
author = {Tian Zheng and Mathias Pechinger and Johannes Lindner and Klaus Bogenberger
},
editor = {Andras Kemeny and Jean-Rémy Chardonnet and Florent Colombet and Stéphane Espié},
doi = {https://doi.org/10.82157/dsa/2025/21},
isbn = {978-2-9573777-7-0},
year = {2025},
date = {2025-09-24},
booktitle = {Proceedings of the Driving Simulation Conference 2025 Europe XR},
pages = {171-178},
address = {Stuttgart, Germany},
organization = {Driving Simulation Association},
abstract = {This paper presents a micromobility (MM) simulator that integrates a fitness bike within a Cave Automatic Virtual Environment (CAVE). The setup is designed to simulate urban mobility scenarios, serving as a platform for researching micromobility (MM), user behavior, and Virtual Reality (VR) simulation effectiveness. We describe the design and implementation of the bicycle simulator, and introduce our active steering system. Next, a user study assesses the behavioral validity of participants using this bicycle simulator concerning steering behavior and the corresponding trajectory. The relative validation study followed a within-subjects design comparing participants’ cycling behavior in the simulator with and without active steering. The study involved 21 participants aged 18 to 45. Results indicate that active steering significantly improves the smoothness of cycling steering behavior. However, the cycling trajectory remained consistent across both situations. Consequently, we conclude that steering behavior using the proposed bicycle simulator with and without active steering demonstrates different validity, while the trajectory shows equivalent validity.},
keywords = {},
}
Download .bib file
TY - CONF
TI - Validating Bicycle Simulators Active Steering in a CAVE Virtual-Reality environment
AU - Zheng, Tian
AU - Pechinger, Mathias
AU - Lindner, Johannes
AU - Bogenberger, Klaus
C1 - Stuttgart, Germany
C3 - Proceedings of the Driving Simulation Conference 2025 Europe XR
DA - 2025/09/24
PY - 2025
SP - 171
EP - 178
LA - en-US
PB - Driving Simulation Association
SN - 978-2-9573777-7-0
L2 - https://proceedings.driving-simulation.org/proceeding/dsc-2025/validating-bicycle-simulators-active-steering-in-a-cave-virtual-reality-environment
ER -
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