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Main Authors: Focchi, Michele, Del Prete, Andrea, Fontanelli, Daniele, Frego, Marco, Peer, Angelika, Palopoli, Luigi
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2403.15142
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author Focchi, Michele
Del Prete, Andrea
Fontanelli, Daniele
Frego, Marco
Peer, Angelika
Palopoli, Luigi
author_facet Focchi, Michele
Del Prete, Andrea
Fontanelli, Daniele
Frego, Marco
Peer, Angelika
Palopoli, Luigi
contents Mountain slopes are perfect examples of harsh environments in which humans are required to perform difficult and dangerous operations such as removing unstable boulders, dangerous vegetation or deploying safety nets. A good replacement for human intervention can be offered by climbing robots. The different solutions existing in the literature are not up to the task for the difficulty of the requirements (navigation, heavy payloads, flexibility in the execution of the tasks). In this paper, we propose a robotic platform that can fill this gap. Our solution is based on a robot that hangs on ropes, and uses a retractable leg to jump away from the mountain walls. Our package of mechanical solutions, along with the algorithms developed for motion planning and control, delivers swift navigation on irregular and steep slopes, the possibility to overcome or travel around significant natural barriers, and the ability to carry heavy payloads and execute complex tasks. In the paper, we give a full account of our main design and algorithmic choices and show the feasibility of the solution through a large number of physically simulated scenarios.
format Preprint
id arxiv_https___arxiv_org_abs_2403_15142
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle ALPINE: a climbing robot for operations in mountain environments
Focchi, Michele
Del Prete, Andrea
Fontanelli, Daniele
Frego, Marco
Peer, Angelika
Palopoli, Luigi
Robotics
Mountain slopes are perfect examples of harsh environments in which humans are required to perform difficult and dangerous operations such as removing unstable boulders, dangerous vegetation or deploying safety nets. A good replacement for human intervention can be offered by climbing robots. The different solutions existing in the literature are not up to the task for the difficulty of the requirements (navigation, heavy payloads, flexibility in the execution of the tasks). In this paper, we propose a robotic platform that can fill this gap. Our solution is based on a robot that hangs on ropes, and uses a retractable leg to jump away from the mountain walls. Our package of mechanical solutions, along with the algorithms developed for motion planning and control, delivers swift navigation on irregular and steep slopes, the possibility to overcome or travel around significant natural barriers, and the ability to carry heavy payloads and execute complex tasks. In the paper, we give a full account of our main design and algorithmic choices and show the feasibility of the solution through a large number of physically simulated scenarios.
title ALPINE: a climbing robot for operations in mountain environments
topic Robotics
url https://arxiv.org/abs/2403.15142