Bimodal mobility actuated by inertial forces with surface elastic bodies in microgravity

Nagaoka Kenji; Kaneko Toshiyasu; Yoshida Kazuya

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Bimodal mobility actuated by inertial forces with surface elastic bodies in microgravity

机译：通过惯性力致动的双峰迁移性与微匍匐的表面弹性体致动

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This paper presents bimodal mobility actuated by inertial forces with elastic bodies for an exploration robot in a microgravity environment. The proposed bimodal locomotion mechanism can selectively achieve vibration propulsion or rotational hopping mode based on centrifugal force and reaction torque exerted by the control of a single eccentric motor, where the rotational hopping is the primary locomotion mode for practical applications. The bimodal mobility performance under microgravity is experimentally examined using an air-floating testbed. Furthermore, we also present theoretical modeling of the bimodal mobility system, and the model is verified by comparison with the experiments.

机译：本文介绍了通过惯性力和微匍匐环境中的勘探机器人的弹性力致动的双峰迁移。所提出的双峰运动机构可以选择性地实现基于离心力的振动推进或旋转跳跃模式，并且通过控制单个偏心电机施加的反作用扭矩，其中旋转跳跃是实际应用的主要运动模式。使用空气浮动试验台实验检查微观度下的双峰移动性能。此外，我们还呈现了双峰移动系统的理论建模，并且通过与实验比较来验证模型。

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来源
《Robotica 》 |2022年第2期| 294-315| 共22页
作者
Nagaoka Kenji; Kaneko Toshiyasu; Yoshida Kazuya;
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作者单位

Kyushu Inst Technol Grad Sch Engn Dept Mech & Control Engn Fukuoka Japan;

Tohoku Univ Grad Sch Engn Dept Aerosp Engn Sendai Miyagi Japan;

Tohoku Univ Grad Sch Engn Dept Aerosp Engn Sendai Miyagi Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
bimodal mobility; inertial forces; elastic bodies; eccentric motor; microgravity;

机译：双峰迁移率;惯性力;弹性体;偏心电机;微匍匐;

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Bimodal mobility actuated by inertial forces with surface elastic bodies in microgravity

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