Design of a Novel Parallel Mechanism for Haptic Device

Lixing Jin; Xingguang Duan; Changsheng Li; Qingxin Shi; Hao Wen; Jin Wang

doi:10.1115/1.4050562

Design of a Novel Parallel Mechanism for Haptic Device

Lixing Jin, Xingguang Duan^*, Changsheng Li^*, Qingxin Shi, Hao Wen, Jin Wang

^*Corresponding author for this work

School of Mechatronical Engineering

Beijing Institute of Technology

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

12 Citations (Scopus)

Abstract

This paper presents a novel parallel architecture with seven active degrees-of-freedom (DOFs) for general-purpose haptic devices. The prime features of the proposed mechanism are partial decoupling, large dexterous working area, and fixed actuators. The detailed processes of design, modeling, and optimization is introduced, and the performance is simulated. After that, a mechanical prototype is fabricated and tested. Results of the simulations and experiments reveal that the proposed mechanism possesses excellent performances on motion flexibility and force feedback. This paper aims to provide a remarkable solution of the generalpurpose haptic device for teleoperation systems with an uncertain mission in complex applications.

Original language	English
Article number	045001
Journal	Journal of Mechanisms and Robotics
Volume	13
Issue number	4
DOIs	https://doi.org/10.1115/1.4050562
Publication status	Published - Aug 2021

Keywords

haptic devices
mechanism design
medical robotics
parallel platforms

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10.1115/1.4050562

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title = "Design of a Novel Parallel Mechanism for Haptic Device",

abstract = "This paper presents a novel parallel architecture with seven active degrees-of-freedom (DOFs) for general-purpose haptic devices. The prime features of the proposed mechanism are partial decoupling, large dexterous working area, and fixed actuators. The detailed processes of design, modeling, and optimization is introduced, and the performance is simulated. After that, a mechanical prototype is fabricated and tested. Results of the simulations and experiments reveal that the proposed mechanism possesses excellent performances on motion flexibility and force feedback. This paper aims to provide a remarkable solution of the generalpurpose haptic device for teleoperation systems with an uncertain mission in complex applications.",

keywords = "haptic devices, mechanism design, medical robotics, parallel platforms",

author = "Lixing Jin and Xingguang Duan and Changsheng Li and Qingxin Shi and Hao Wen and Jin Wang",

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AU - Jin, Lixing

AU - Duan, Xingguang

AU - Li, Changsheng

AU - Shi, Qingxin

AU - Wen, Hao

AU - Wang, Jin

PY - 2021/8

Y1 - 2021/8

N2 - This paper presents a novel parallel architecture with seven active degrees-of-freedom (DOFs) for general-purpose haptic devices. The prime features of the proposed mechanism are partial decoupling, large dexterous working area, and fixed actuators. The detailed processes of design, modeling, and optimization is introduced, and the performance is simulated. After that, a mechanical prototype is fabricated and tested. Results of the simulations and experiments reveal that the proposed mechanism possesses excellent performances on motion flexibility and force feedback. This paper aims to provide a remarkable solution of the generalpurpose haptic device for teleoperation systems with an uncertain mission in complex applications.

AB - This paper presents a novel parallel architecture with seven active degrees-of-freedom (DOFs) for general-purpose haptic devices. The prime features of the proposed mechanism are partial decoupling, large dexterous working area, and fixed actuators. The detailed processes of design, modeling, and optimization is introduced, and the performance is simulated. After that, a mechanical prototype is fabricated and tested. Results of the simulations and experiments reveal that the proposed mechanism possesses excellent performances on motion flexibility and force feedback. This paper aims to provide a remarkable solution of the generalpurpose haptic device for teleoperation systems with an uncertain mission in complex applications.

KW - haptic devices

KW - mechanism design

KW - medical robotics

KW - parallel platforms

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ER -

Design of a Novel Parallel Mechanism for Haptic Device

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