Reliability Improvement of a Crawler-Type Ceiling Mobile Robot in Starting, Accelerating, and Traveling Phase at High Speed

Pub Date : 2023-12-20 DOI:10.20965/jrm.2023.p1551
Rei Ezaka, Takehito Yoshida, Yudai Yamada, Shin’ichi Warisawa, Rui Fukui
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Abstract

The ceiling serves as an ideal location for robots to handle transportation tasks, as it ensures minimal interference between automated guided vehicles (AGV) and human activities. A previous study developed a ceiling mobile robot called HanGrawler 2. It can travel at a high speed of 1.0 m/s to compete with ground vehicles. However, it occasionally fails during high-speed travel. This study aims to improve the reliability of starting, accelerating, and traveling at high speed. Optical motion capture is used to observe the crawler behavior of HanGrawler 2. The observation of the crawler behavior revealed that the crawler moves on an inflated trajectory during the high-speed movement. In addition, the experimental results show that the collision is not caused by the inflation, but by the push-in timing. The reliability of high-speed travel was improved by installing an encoder and optimizing the push-in timing in accordance with speed fluctuations.
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提高履带式顶棚移动机器人在起步、加速和高速行驶阶段的可靠性
天花板是机器人执行运输任务的理想场所,因为它能确保自动导航车(AGV)与人类活动之间的干扰最小。之前的一项研究开发了一种名为 HanGrawler 2 的天花板移动机器人。它能以每秒 1.0 米的高速行驶,与地面车辆竞争。然而,它在高速行驶过程中偶尔会出现故障。本研究旨在提高启动、加速和高速行驶的可靠性。光学运动捕捉用于观察 HanGrawler 2 的爬行行为。通过对爬行行为的观察发现,爬行器在高速移动过程中的运动轨迹是膨胀的。此外,实验结果表明,碰撞不是由充气引起的,而是由推入时机引起的。通过安装编码器并根据速度波动优化推入时机,提高了高速行驶的可靠性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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