Bimodal mobility actuated by inertial forces with surface elastic bodies in microgravity
Kenji Nagaoka, Toshiyasu Kaneko, Kazuya Yoshida
- 发表年份
- 2021
- 引用次数
- 4
摘要
Abstract 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.
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