Posture Stabilization Control Compensating Variation of Body Center of Gravity in Underactuated System

2023 IEEE International Conference on Mechatronics (ICM) Pub Date : 2023-03-15 DOI:10.1109/ICM54990.2023.10101996

Hikaru Yajima, K. Ishizaki, Yasuhiro Miyata, Masamichi Nawa, Norihiko Kato, Toshiyuki Murakami

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引用次数: 1

Abstract

With the recent decreasing birthrate and aging population, cooperative robots are attracting attention for a new workforce. As cooperative robot, robots with a small footprint and high center of gravity, like humans, can be considered more suited. Robots with these features are generally unstable, and posture stabilization control becomes important when the center of gravity is shifted due to holding objects or other factors. Therefore, in this study, we select a two-wheeled robot as the target robot and carrying luggage as the target motion, and establish the posture stabilization. Many studies about two-wheeled transport robots do not adequately consider the shift in the center of gravity, which may lead to rapid acceleration and negatively affect position tracking performance. The purpose of this paper is to compensate the shift in the center of gravity of the vehicle, and can perform transport operations in a steady state. To achieve this purpose, we propose to apply Repulsive compliance control(RCC) to a two-wheeled transport robot. Several experiments show its effectiveness.

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欠驱动系统姿态稳定控制补偿重心变化

随着最近的出生率下降和人口老龄化，协作机器人正成为人们关注的新劳动力。作为合作机器人，像人类一样占地面积小、重心高的机器人可以被认为更适合。具有这些特征的机器人通常是不稳定的，当由于持有物体或其他因素而导致重心转移时，姿态稳定控制变得重要。因此，在本研究中，我们选择两轮机器人作为目标机器人，以搬运行李为目标运动，并建立姿态稳定。许多关于两轮运输机器人的研究没有充分考虑重心的偏移，这可能导致机器人加速过快，对位置跟踪性能产生不利影响。本文的目的是补偿车辆的重心偏移，并能在稳定状态下进行运输操作。为了达到这一目的，我们提出将排斥顺应控制(RCC)应用于两轮运输机器人。实验证明了该方法的有效性。

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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2023 IEEE International Conference on Mechatronics (ICM)

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