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Autori principali: Zhou, Xiaoyan, Sempere, Natalia, Ghavamian, Pooria, Rostami, Asreen, Matviienko, Andrii
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2604.10829
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author Zhou, Xiaoyan
Sempere, Natalia
Ghavamian, Pooria
Rostami, Asreen
Matviienko, Andrii
author_facet Zhou, Xiaoyan
Sempere, Natalia
Ghavamian, Pooria
Rostami, Asreen
Matviienko, Andrii
contents Micromobility vehicles, such as e-scooters, Segways, skateboards, and unicycles, are increasingly adopted for short-distance travel due to their low weight and low emissions. Despite their growing popularity, we lack controlled, low-risk environments to study rider experiences and performance. While virtual reality (VR) simulators offer a promising approach by reducing safety risks and providing immersive experiences, micromobility simulators remain largely underexplored. We introduce MicroVRide, a modular 4-in-1 VR micromobility simulator that supports e-scooters, Segways, electric unicycles, and one-wheeled skateboards on a single platform. The simulator preserves vehicle-specific physical constraints and control metaphors, enabling the study of diverse riding behaviors with minimal hardware reconfiguration. We contribute the simulator design and report a preliminary within-subject study (N = 12) that demonstrates feasibility and reveals distinct experiential profiles across vehicles.
format Preprint
id arxiv_https___arxiv_org_abs_2604_10829
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle MicroVRide: Exploring 4-in-1 Virtual Reality Micromobility Simulator
Zhou, Xiaoyan
Sempere, Natalia
Ghavamian, Pooria
Rostami, Asreen
Matviienko, Andrii
Human-Computer Interaction
Micromobility vehicles, such as e-scooters, Segways, skateboards, and unicycles, are increasingly adopted for short-distance travel due to their low weight and low emissions. Despite their growing popularity, we lack controlled, low-risk environments to study rider experiences and performance. While virtual reality (VR) simulators offer a promising approach by reducing safety risks and providing immersive experiences, micromobility simulators remain largely underexplored. We introduce MicroVRide, a modular 4-in-1 VR micromobility simulator that supports e-scooters, Segways, electric unicycles, and one-wheeled skateboards on a single platform. The simulator preserves vehicle-specific physical constraints and control metaphors, enabling the study of diverse riding behaviors with minimal hardware reconfiguration. We contribute the simulator design and report a preliminary within-subject study (N = 12) that demonstrates feasibility and reveals distinct experiential profiles across vehicles.
title MicroVRide: Exploring 4-in-1 Virtual Reality Micromobility Simulator
topic Human-Computer Interaction
url https://arxiv.org/abs/2604.10829