Mechanical Design and Drive Control of a Novel Dexterous Hand for On-Orbit Servicing

Wencheng Ni; Zhihong Jiang; Hui Li; Bo Wei; Bainan Zhang; Qiang Huang

doi:10.15918/j.jbit1004-0579.17181

Mechanical Design and Drive Control of a Novel Dexterous Hand for On-Orbit Servicing

Wencheng Ni, Zhihong Jiang^*, Hui Li, Bo Wei, Bainan Zhang, Qiang Huang

^*Corresponding author for this work

School of Mechatronical Engineering

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

In order to meet the requirements of on-orbit servicing outside the cabin, a flexible, dexterous hand with easy grasping ability and strong loading capacity is designed. The dexterous hand is comprised of three fingers. Each finger is driven by a set of four linkages. Furthermore, two fingers have a set of axial rotational degrees of freedom. In order to achieve the position control and keep griping stability, the dexterous hand adopts a mechanism of hybrid force/position control. In the end, experimental results demonstrates that the on-orbit servicing dexterous hand has great adaptability and operational capability.

Original language	English
Pages (from-to)	410-417
Number of pages	8
Journal	Journal of Beijing Institute of Technology (English Edition)
Volume	28
Issue number	3
DOIs	https://doi.org/10.15918/j.jbit1004-0579.17181
Publication status	Published - 1 Sept 2019

Keywords

Hybrid force/position control
Three-fingers
Under-actuation

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10.15918/j.jbit1004-0579.17181

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title = "Mechanical Design and Drive Control of a Novel Dexterous Hand for On-Orbit Servicing",

abstract = "In order to meet the requirements of on-orbit servicing outside the cabin, a flexible, dexterous hand with easy grasping ability and strong loading capacity is designed. The dexterous hand is comprised of three fingers. Each finger is driven by a set of four linkages. Furthermore, two fingers have a set of axial rotational degrees of freedom. In order to achieve the position control and keep griping stability, the dexterous hand adopts a mechanism of hybrid force/position control. In the end, experimental results demonstrates that the on-orbit servicing dexterous hand has great adaptability and operational capability.",

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AU - Li, Hui

AU - Wei, Bo

AU - Zhang, Bainan

AU - Huang, Qiang

PY - 2019/9/1

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N2 - In order to meet the requirements of on-orbit servicing outside the cabin, a flexible, dexterous hand with easy grasping ability and strong loading capacity is designed. The dexterous hand is comprised of three fingers. Each finger is driven by a set of four linkages. Furthermore, two fingers have a set of axial rotational degrees of freedom. In order to achieve the position control and keep griping stability, the dexterous hand adopts a mechanism of hybrid force/position control. In the end, experimental results demonstrates that the on-orbit servicing dexterous hand has great adaptability and operational capability.

AB - In order to meet the requirements of on-orbit servicing outside the cabin, a flexible, dexterous hand with easy grasping ability and strong loading capacity is designed. The dexterous hand is comprised of three fingers. Each finger is driven by a set of four linkages. Furthermore, two fingers have a set of axial rotational degrees of freedom. In order to achieve the position control and keep griping stability, the dexterous hand adopts a mechanism of hybrid force/position control. In the end, experimental results demonstrates that the on-orbit servicing dexterous hand has great adaptability and operational capability.

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KW - Under-actuation

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Mechanical Design and Drive Control of a Novel Dexterous Hand for On-Orbit Servicing

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Keywords

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