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Main Authors: Arimura, Taichi, Nishimura, Yuki, Ikezaki, Taichi, Tabuchi, Daisuke
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.27934
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author Arimura, Taichi
Nishimura, Yuki
Ikezaki, Taichi
Tabuchi, Daisuke
author_facet Arimura, Taichi
Nishimura, Yuki
Ikezaki, Taichi
Tabuchi, Daisuke
contents In recent years, many control problems of autonomous mobile robots have been developed. In particular, the robots are required to be safe; that is, they need to be controlled to avoid colliding with people or objects while traveling. In addition, since safety should be ensured even under irregular disturbances, the control for safety is required to be effective for stochastic systems. In this study, we design an almost sure safety-critical control law, which ensures safety with probability one, for a two-wheeled vehicle based on the stochastic control barrier function approach. In the procedure, we also consider a system model using the relative distance measured by a 2D LiDAR. The validity of the proposed control scheme is confirmed by experiments of a collision avoidance problem for a two-wheeled vehicle under vibration.
format Preprint
id arxiv_https___arxiv_org_abs_2603_27934
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Collision Avoidance Control for a Two-wheeled Vehicle under Stochastic Vibration using an Almost Sure Control Barrier Function
Arimura, Taichi
Nishimura, Yuki
Ikezaki, Taichi
Tabuchi, Daisuke
Systems and Control
In recent years, many control problems of autonomous mobile robots have been developed. In particular, the robots are required to be safe; that is, they need to be controlled to avoid colliding with people or objects while traveling. In addition, since safety should be ensured even under irregular disturbances, the control for safety is required to be effective for stochastic systems. In this study, we design an almost sure safety-critical control law, which ensures safety with probability one, for a two-wheeled vehicle based on the stochastic control barrier function approach. In the procedure, we also consider a system model using the relative distance measured by a 2D LiDAR. The validity of the proposed control scheme is confirmed by experiments of a collision avoidance problem for a two-wheeled vehicle under vibration.
title Collision Avoidance Control for a Two-wheeled Vehicle under Stochastic Vibration using an Almost Sure Control Barrier Function
topic Systems and Control
url https://arxiv.org/abs/2603.27934