Design and implementation of virtual tube as an aid for space teleoperation

Zhi Yu Tian; Pan Feng Huang; Zheng Xiong Liu

doi:10.3873/j.issn.1000-1328.2014.07.013

Design and implementation of virtual tube as an aid for space teleoperation

Zhi Yu Tian, Pan Feng Huang, Zheng Xiong Liu

School of Astronautics

Northwestern Polytechnical University Xian

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

5 Scopus citations

Abstract

For the manipulation safety of teleoperation in complicated space environments, a fast generation algorithm for the smooth virtual tube is proposed based on the path points. An improved Depth-first Search algorithm of virtual tube's static-planning and a dynamic amendment method are also presented, thus realizing tube's avoidance of static and dynamic obstacles. Virtual tube can provide the feedback of vision and tactility for the operator to adjust its operation. By moving inside the tube, the manipulation objective can achieve the goal safely and swiftly. Compared with the methods of following the trajectory of path planning to avoid obstacle, the proposed method improve manipulation flexibility and efficiency. The effectiveness of the algorithms is demonstrated through several obstacle avoidance experiments by using CHAI 3D.

Original language	English
Pages (from-to)	834-842
Number of pages	9
Journal	Yuhang Xuebao/Journal of Astronautics
Volume	35
Issue number	7
DOIs	https://doi.org/10.3873/j.issn.1000-1328.2014.07.013
State	Published - Jul 2014

Keywords

Haptic feedback
Obstacle avoidance
Teleoperation
Virtual tube

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title = "Design and implementation of virtual tube as an aid for space teleoperation",

abstract = "For the manipulation safety of teleoperation in complicated space environments, a fast generation algorithm for the smooth virtual tube is proposed based on the path points. An improved Depth-first Search algorithm of virtual tube's static-planning and a dynamic amendment method are also presented, thus realizing tube's avoidance of static and dynamic obstacles. Virtual tube can provide the feedback of vision and tactility for the operator to adjust its operation. By moving inside the tube, the manipulation objective can achieve the goal safely and swiftly. Compared with the methods of following the trajectory of path planning to avoid obstacle, the proposed method improve manipulation flexibility and efficiency. The effectiveness of the algorithms is demonstrated through several obstacle avoidance experiments by using CHAI 3D.",

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T1 - Design and implementation of virtual tube as an aid for space teleoperation

AU - Tian, Zhi Yu

AU - Huang, Pan Feng

AU - Liu, Zheng Xiong

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N2 - For the manipulation safety of teleoperation in complicated space environments, a fast generation algorithm for the smooth virtual tube is proposed based on the path points. An improved Depth-first Search algorithm of virtual tube's static-planning and a dynamic amendment method are also presented, thus realizing tube's avoidance of static and dynamic obstacles. Virtual tube can provide the feedback of vision and tactility for the operator to adjust its operation. By moving inside the tube, the manipulation objective can achieve the goal safely and swiftly. Compared with the methods of following the trajectory of path planning to avoid obstacle, the proposed method improve manipulation flexibility and efficiency. The effectiveness of the algorithms is demonstrated through several obstacle avoidance experiments by using CHAI 3D.

AB - For the manipulation safety of teleoperation in complicated space environments, a fast generation algorithm for the smooth virtual tube is proposed based on the path points. An improved Depth-first Search algorithm of virtual tube's static-planning and a dynamic amendment method are also presented, thus realizing tube's avoidance of static and dynamic obstacles. Virtual tube can provide the feedback of vision and tactility for the operator to adjust its operation. By moving inside the tube, the manipulation objective can achieve the goal safely and swiftly. Compared with the methods of following the trajectory of path planning to avoid obstacle, the proposed method improve manipulation flexibility and efficiency. The effectiveness of the algorithms is demonstrated through several obstacle avoidance experiments by using CHAI 3D.

KW - Haptic feedback

KW - Obstacle avoidance

KW - Teleoperation

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Design and implementation of virtual tube as an aid for space teleoperation

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Keywords

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