Untethered Octopus‐Inspired Millirobot Actuated by Regular Tetrahedron Arranged Magnetic Field

Untethered Octopus‐Inspired Millirobot Actuated by Regular Tetrahedron Arranged Magnetic Field

Flexible magnetic small‐scale robots (overall dimensions smaller than 1 cm) can use a patterned magnetization profile to noninvasively access a confined, enclosed liquid environment and therefore achieve applications in object manipulation or in minimally invasive procedures. Existing magnetic‐contr...

Full description

Bibliographic Details
Main Authors: Yuguo Dai, Shuzhang Liang, Yuanyuan Chen, Yanmin Feng, Dixiao Chen, Bin Song, Xue Bai, Deyuan Zhang, Lin Feng, Fumihito Arai
Format: Article
Language:English
Published: Wiley 2020-05-01
Series:Advanced Intelligent Systems
Subjects:
electromagnets
octopus-like robots
3D control
Online Access:https://doi.org/10.1002/aisy.201900148
id doaj-525fa599546a4ae5a585b021c827c152
record_format Article
spelling doaj-525fa599546a4ae5a585b021c827c1522020-11-25T03:53:31ZengWileyAdvanced Intelligent Systems2640-45672020-05-0125n/an/a10.1002/aisy.201900148Untethered Octopus‐Inspired Millirobot Actuated by Regular Tetrahedron Arranged Magnetic FieldYuguo Dai0Shuzhang Liang1Yuanyuan Chen2Yanmin Feng3Dixiao Chen4Bin Song5Xue Bai6Deyuan Zhang7Lin Feng8Fumihito Arai9School of Mechanical Engineering & Automation Beihang University Beijing 100191 ChinaSchool of Mechanical Engineering & Automation Beihang University Beijing 100191 ChinaSchool of Mechanical Engineering & Automation Beihang University Beijing 100191 ChinaSchool of Mechanical Engineering & Automation Beihang University Beijing 100191 ChinaSchool of Mechanical Engineering & Automation Beihang University Beijing 100191 ChinaSchool of Mechanical Engineering & Automation Beihang University Beijing 100191 ChinaSchool of Mechanical Engineering & Automation Beihang University Beijing 100191 ChinaSchool of Mechanical Engineering & Automation Beihang University Beijing 100191 ChinaSchool of Mechanical Engineering & Automation Beihang University Beijing 100191 ChinaDepartment of Micro-Nano Systems Engineering Nagoya University Nagoya 464-8603 JapanFlexible magnetic small‐scale robots (overall dimensions smaller than 1 cm) can use a patterned magnetization profile to noninvasively access a confined, enclosed liquid environment and therefore achieve applications in object manipulation or in minimally invasive procedures. Existing magnetic‐controlled small‐scale robots have shown wide usage for their high mobility and higher degrees of freedom than their rigid counterparts. Herein, an octopus‐like soft robot is proposed for potential use in biomedical and engineering fields. First, a magnetic control system is established, which uses the minimum number of coils arranged by a regular tetrahedron structure. This system responds quickly and with high precision to propel a robot in 3D space utilizing the coupled field from multiple electromagnets in concert. An octopus‐like robot with three legs is designed, which moves freely in the workspace without constraints. A time‐asymmetric gradient magnetic field is applied, to ensure that the movement of the robot is more stable and controlled. At the same time, the movement of the tail improves the precision of the robot and makes control easier.https://doi.org/10.1002/aisy.201900148electromagnetsoctopus-like robots3D control
collection DOAJ
language English
format Article
sources DOAJ
author Yuguo Dai
Shuzhang Liang
Yuanyuan Chen
Yanmin Feng
Dixiao Chen
Bin Song
Xue Bai
Deyuan Zhang
Lin Feng
Fumihito Arai
spellingShingle Yuguo Dai
Shuzhang Liang
Yuanyuan Chen
Yanmin Feng
Dixiao Chen
Bin Song
Xue Bai
Deyuan Zhang
Lin Feng
Fumihito Arai
Untethered Octopus‐Inspired Millirobot Actuated by Regular Tetrahedron Arranged Magnetic Field
Advanced Intelligent Systems
electromagnets
octopus-like robots
3D control
author_facet Yuguo Dai
Shuzhang Liang
Yuanyuan Chen
Yanmin Feng
Dixiao Chen
Bin Song
Xue Bai
Deyuan Zhang
Lin Feng
Fumihito Arai
author_sort Yuguo Dai
title Untethered Octopus‐Inspired Millirobot Actuated by Regular Tetrahedron Arranged Magnetic Field
title_short Untethered Octopus‐Inspired Millirobot Actuated by Regular Tetrahedron Arranged Magnetic Field
title_full Untethered Octopus‐Inspired Millirobot Actuated by Regular Tetrahedron Arranged Magnetic Field
title_fullStr Untethered Octopus‐Inspired Millirobot Actuated by Regular Tetrahedron Arranged Magnetic Field
title_full_unstemmed Untethered Octopus‐Inspired Millirobot Actuated by Regular Tetrahedron Arranged Magnetic Field
title_sort untethered octopus‐inspired millirobot actuated by regular tetrahedron arranged magnetic field
publisher Wiley
series Advanced Intelligent Systems
issn 2640-4567
publishDate 2020-05-01
description Flexible magnetic small‐scale robots (overall dimensions smaller than 1 cm) can use a patterned magnetization profile to noninvasively access a confined, enclosed liquid environment and therefore achieve applications in object manipulation or in minimally invasive procedures. Existing magnetic‐controlled small‐scale robots have shown wide usage for their high mobility and higher degrees of freedom than their rigid counterparts. Herein, an octopus‐like soft robot is proposed for potential use in biomedical and engineering fields. First, a magnetic control system is established, which uses the minimum number of coils arranged by a regular tetrahedron structure. This system responds quickly and with high precision to propel a robot in 3D space utilizing the coupled field from multiple electromagnets in concert. An octopus‐like robot with three legs is designed, which moves freely in the workspace without constraints. A time‐asymmetric gradient magnetic field is applied, to ensure that the movement of the robot is more stable and controlled. At the same time, the movement of the tail improves the precision of the robot and makes control easier.
topic electromagnets
octopus-like robots
3D control
url https://doi.org/10.1002/aisy.201900148
work_keys_str_mv AT yuguodai untetheredoctopusinspiredmillirobotactuatedbyregulartetrahedronarrangedmagneticfield
AT shuzhangliang untetheredoctopusinspiredmillirobotactuatedbyregulartetrahedronarrangedmagneticfield
AT yuanyuanchen untetheredoctopusinspiredmillirobotactuatedbyregulartetrahedronarrangedmagneticfield
AT yanminfeng untetheredoctopusinspiredmillirobotactuatedbyregulartetrahedronarrangedmagneticfield
AT dixiaochen untetheredoctopusinspiredmillirobotactuatedbyregulartetrahedronarrangedmagneticfield
AT binsong untetheredoctopusinspiredmillirobotactuatedbyregulartetrahedronarrangedmagneticfield
AT xuebai untetheredoctopusinspiredmillirobotactuatedbyregulartetrahedronarrangedmagneticfield
AT deyuanzhang untetheredoctopusinspiredmillirobotactuatedbyregulartetrahedronarrangedmagneticfield
AT linfeng untetheredoctopusinspiredmillirobotactuatedbyregulartetrahedronarrangedmagneticfield
AT fumihitoarai untetheredoctopusinspiredmillirobotactuatedbyregulartetrahedronarrangedmagneticfield
_version_ 1724477538694070272

Similar Items