爬行
机器人
磁铁
机制(生物学)
软机器人
联轴节(管道)
软质材料
机器人运动
计算机科学
机械工程
模拟
控制理论(社会学)
控制工程
工程类
材料科学
移动机器人
人工智能
物理
机器人控制
纳米技术
控制(管理)
医学
解剖
量子力学
作者
Hanqing Niu,Ruoyu Feng,Yuwei Xie,Bowen Jiang,Yongzhi Sheng,Yang Yu,Hexi Baoyin,Xiangyuan Zeng
出处
期刊:Soft robotics
[Mary Ann Liebert, Inc.]
日期:2020-08-21
卷期号:8 (5): 507-518
被引量:118
标识
DOI:10.1089/soro.2019.0167
摘要
Emerging worm-like soft robots with various soft materials and different actuation mechanism have been frequently discussed. It is very challenging for soft robots in realizing a fast and untethered crawling. In this article, a biomimetic magnet embedded worm-like robot (shorted as "MagWorm") in the size of centimeter level is designed and investigated. The actuation of the MagWorm is achieved by housing permanent magnetic patches in its soft body, which interact with an external moving drive-magnet system. A dynamic model is established, coupling the discrete elastic rod model with magnetic actuation. The driving mechanism is then numerically studied. Quantitative comparisons between the numerical solution and experiment results show reasonable agreement. It is shown that the MagWorm can deform part of its body into a "Ω" shape and generate biomimetic crawling locomotion. The crawling speed of the robot is studied experimentally with different sizes. Some potential applications are also proposed and demonstrated. The MagWorm represents compact and low-cost solutions that use permanent magnets for remote actuation of soft robot and can be continuously operated during long procedures.
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