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Autori principali: Zhang, Zhaopeng, Wu, Shizhen, Guo, Chenfeng, Fang, Yongchun, Han, Jianda, Liang, Xiao
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2504.08338
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author Zhang, Zhaopeng
Wu, Shizhen
Guo, Chenfeng
Fang, Yongchun
Han, Jianda
Liang, Xiao
author_facet Zhang, Zhaopeng
Wu, Shizhen
Guo, Chenfeng
Fang, Yongchun
Han, Jianda
Liang, Xiao
contents Motion planning for aerial manipulators in constrained environments has typically been limited to known environments or simplified to that of multi-rotors, which leads to poor adaptability and overly conservative trajectories. This paper presents RINGO: Real-time Navigation with a Guiding Trajectory, a novel planning framework that enables aerial manipulators to navigate unknown environments in real time. The proposed method simultaneously considers the positions of both the multi-rotor and the end-effector. A pre-obtained multi-rotor trajectory serves as a guiding reference, allowing the end-effector to generate a smooth, collision-free, and workspace-compatible trajectory. Leveraging the convex hull property of B-spline curves, we theoretically guarantee that the trajectory remains within the reachable workspace. To the best of our knowledge, this is the first work that enables real-time navigation of aerial manipulators in unknown environments. The simulation and experimental results show the effectiveness of the proposed method. The proposed method generates less conservative trajectories than approaches that consider only the multi-rotor.
format Preprint
id arxiv_https___arxiv_org_abs_2504_08338
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle RINGO: Real-time Navigation with a Guiding Trajectory for Aerial Manipulators in Unknown Environments
Zhang, Zhaopeng
Wu, Shizhen
Guo, Chenfeng
Fang, Yongchun
Han, Jianda
Liang, Xiao
Robotics
Motion planning for aerial manipulators in constrained environments has typically been limited to known environments or simplified to that of multi-rotors, which leads to poor adaptability and overly conservative trajectories. This paper presents RINGO: Real-time Navigation with a Guiding Trajectory, a novel planning framework that enables aerial manipulators to navigate unknown environments in real time. The proposed method simultaneously considers the positions of both the multi-rotor and the end-effector. A pre-obtained multi-rotor trajectory serves as a guiding reference, allowing the end-effector to generate a smooth, collision-free, and workspace-compatible trajectory. Leveraging the convex hull property of B-spline curves, we theoretically guarantee that the trajectory remains within the reachable workspace. To the best of our knowledge, this is the first work that enables real-time navigation of aerial manipulators in unknown environments. The simulation and experimental results show the effectiveness of the proposed method. The proposed method generates less conservative trajectories than approaches that consider only the multi-rotor.
title RINGO: Real-time Navigation with a Guiding Trajectory for Aerial Manipulators in Unknown Environments
topic Robotics
url https://arxiv.org/abs/2504.08338