Key Technologies and Applications of Robotic Dual-Axis Hole Assembly for Satellite Components

Ke Wen; Yanxi Mao; Yuqing He; Qichen Sun; Yunpeng Wang; Jianping Xu; Yang Pan

doi:10.1145/3627341.3630367

Key Technologies and Applications of Robotic Dual-Axis Hole Assembly for Satellite Components

Ke Wen^*, Yanxi Mao, Yuqing He, Qichen Sun, Yunpeng Wang, Jianping Xu, Yang Pan

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In order to complete the automatic assembly task of satellite components and ensure the consistency of assembly, the key technologies and applications of satellite component robotic dual-axis hole assembly are studied. In the dual-axis hole assembly scenario, an automatic grasping and gravity calibration model of the robot end is proposed. According to the least square method and the measured force sensor data in multiple poses, the zero point calibration of the robot end is realized. At the level of compliance control, a physical model is established and deduced. Taking the conductance control principle of admittance control as a reference, the assembly of satellite biaxial hole components based on force control is finally realized. The experimental results show that the gravity calibration method adopted is accurate, and the force curve and dynamic compensation value measured on this basis are in line with the model principle, and the ideal assembly effect has been achieved. It provides engineering reference for the dual-axis hole assembly in the field of manipulator control, and has high application value.

Original language	English
Title of host publication	Proceedings of 2023 International Conference on Computer, Vision and Intelligent Technology, ICCVIT 2023
Publisher	Association for Computing Machinery
ISBN (Electronic)	9798400708701
DOIs	https://doi.org/10.1145/3627341.3630367
Publication status	Published - 25 Aug 2023
Externally published	Yes
Event	2023 International Conference on Computer, Vision and Intelligent Technology, ICCVIT 2023 - Chenzhou, China Duration: 25 Aug 2023 → 28 Aug 2023

Publication series

Name	ACM International Conference Proceeding Series

Conference

Conference	2023 International Conference on Computer, Vision and Intelligent Technology, ICCVIT 2023
Country/Territory	China
City	Chenzhou
Period	25/08/23 → 28/08/23

Keywords

dual-axis hole assembly
impedance control
robot
satellite components
zero-point calibration

Access to Document

10.1145/3627341.3630367

Cite this

Wen, K., Mao, Y., He, Y., Sun, Q., Wang, Y., Xu, J., & Pan, Y. (2023). Key Technologies and Applications of Robotic Dual-Axis Hole Assembly for Satellite Components. In Proceedings of 2023 International Conference on Computer, Vision and Intelligent Technology, ICCVIT 2023 Article 31 (ACM International Conference Proceeding Series). Association for Computing Machinery. https://doi.org/10.1145/3627341.3630367

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title = "Key Technologies and Applications of Robotic Dual-Axis Hole Assembly for Satellite Components",

abstract = "In order to complete the automatic assembly task of satellite components and ensure the consistency of assembly, the key technologies and applications of satellite component robotic dual-axis hole assembly are studied. In the dual-axis hole assembly scenario, an automatic grasping and gravity calibration model of the robot end is proposed. According to the least square method and the measured force sensor data in multiple poses, the zero point calibration of the robot end is realized. At the level of compliance control, a physical model is established and deduced. Taking the conductance control principle of admittance control as a reference, the assembly of satellite biaxial hole components based on force control is finally realized. The experimental results show that the gravity calibration method adopted is accurate, and the force curve and dynamic compensation value measured on this basis are in line with the model principle, and the ideal assembly effect has been achieved. It provides engineering reference for the dual-axis hole assembly in the field of manipulator control, and has high application value.",

keywords = "dual-axis hole assembly, impedance control, robot, satellite components, zero-point calibration",

author = "Ke Wen and Yanxi Mao and Yuqing He and Qichen Sun and Yunpeng Wang and Jianping Xu and Yang Pan",

note = "Publisher Copyright: {\textcopyright} 2023 ACM.; 2023 International Conference on Computer, Vision and Intelligent Technology, ICCVIT 2023 ; Conference date: 25-08-2023 Through 28-08-2023",

year = "2023",

month = aug,

day = "25",

doi = "10.1145/3627341.3630367",

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Wen, K, Mao, Y, He, Y, Sun, Q, Wang, Y, Xu, J & Pan, Y 2023, Key Technologies and Applications of Robotic Dual-Axis Hole Assembly for Satellite Components. in Proceedings of 2023 International Conference on Computer, Vision and Intelligent Technology, ICCVIT 2023., 31, ACM International Conference Proceeding Series, Association for Computing Machinery, 2023 International Conference on Computer, Vision and Intelligent Technology, ICCVIT 2023, Chenzhou, China, 25/08/23. https://doi.org/10.1145/3627341.3630367

Key Technologies and Applications of Robotic Dual-Axis Hole Assembly for Satellite Components. / Wen, Ke; Mao, Yanxi; He, Yuqing et al.
Proceedings of 2023 International Conference on Computer, Vision and Intelligent Technology, ICCVIT 2023. Association for Computing Machinery, 2023. 31 (ACM International Conference Proceeding Series).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Key Technologies and Applications of Robotic Dual-Axis Hole Assembly for Satellite Components

AU - Wen, Ke

AU - Mao, Yanxi

AU - He, Yuqing

AU - Sun, Qichen

AU - Wang, Yunpeng

AU - Xu, Jianping

AU - Pan, Yang

PY - 2023/8/25

Y1 - 2023/8/25

N2 - In order to complete the automatic assembly task of satellite components and ensure the consistency of assembly, the key technologies and applications of satellite component robotic dual-axis hole assembly are studied. In the dual-axis hole assembly scenario, an automatic grasping and gravity calibration model of the robot end is proposed. According to the least square method and the measured force sensor data in multiple poses, the zero point calibration of the robot end is realized. At the level of compliance control, a physical model is established and deduced. Taking the conductance control principle of admittance control as a reference, the assembly of satellite biaxial hole components based on force control is finally realized. The experimental results show that the gravity calibration method adopted is accurate, and the force curve and dynamic compensation value measured on this basis are in line with the model principle, and the ideal assembly effect has been achieved. It provides engineering reference for the dual-axis hole assembly in the field of manipulator control, and has high application value.

AB - In order to complete the automatic assembly task of satellite components and ensure the consistency of assembly, the key technologies and applications of satellite component robotic dual-axis hole assembly are studied. In the dual-axis hole assembly scenario, an automatic grasping and gravity calibration model of the robot end is proposed. According to the least square method and the measured force sensor data in multiple poses, the zero point calibration of the robot end is realized. At the level of compliance control, a physical model is established and deduced. Taking the conductance control principle of admittance control as a reference, the assembly of satellite biaxial hole components based on force control is finally realized. The experimental results show that the gravity calibration method adopted is accurate, and the force curve and dynamic compensation value measured on this basis are in line with the model principle, and the ideal assembly effect has been achieved. It provides engineering reference for the dual-axis hole assembly in the field of manipulator control, and has high application value.

KW - dual-axis hole assembly

KW - impedance control

KW - robot

KW - satellite components

KW - zero-point calibration

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T3 - ACM International Conference Proceeding Series

BT - Proceedings of 2023 International Conference on Computer, Vision and Intelligent Technology, ICCVIT 2023

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ER -

Wen K, Mao Y, He Y, Sun Q, Wang Y, Xu J et al. Key Technologies and Applications of Robotic Dual-Axis Hole Assembly for Satellite Components. In Proceedings of 2023 International Conference on Computer, Vision and Intelligent Technology, ICCVIT 2023. Association for Computing Machinery. 2023. 31. (ACM International Conference Proceeding Series). doi: 10.1145/3627341.3630367

Key Technologies and Applications of Robotic Dual-Axis Hole Assembly for Satellite Components

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