模型不确定的空间机器人无力传感器阻抗控制方法

Dong Tao; Qiang Zhang; Liang Yu Zhao

doi:10.3873/j.issn.1000-1328.2021.06.010

模型不确定的空间机器人无力传感器阻抗控制方法

Translated title of the contribution: Force Sensorless Impedance Control for a Space Robot with Dynamic Uncertainty

Dong Tao, Qiang Zhang, Liang Yu Zhao^*

^*Corresponding author for this work

School of Aerospace Engineering

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

10 Citations (Scopus)

Abstract

A force sensorless impedance control approach is proposed for the collision between the free-floating space robot and the captured object by taking the dynamic parameters uncertainty into account. The contact force identified by the neural network and the other contact force observed by the inaccurate dynamic model are both employed as the estimated contact force between the end effector and the target object as well as the feedback of the impedance controller. The method enables the space robot to flexibly capture the service object even if the dynamic parameters are uncertain and the force sensor is not assembled. The numerical simulation results show that this method can effectively reduce the requirement for the precision of space robot dynamics modeling and is practical in engineering.

Translated title of the contribution	Force Sensorless Impedance Control for a Space Robot with Dynamic Uncertainty
Original language	Chinese (Traditional)
Pages (from-to)	766-774
Number of pages	9
Journal	Yuhang Xuebao/Journal of Astronautics
Volume	42
Issue number	6
DOIs	https://doi.org/10.3873/j.issn.1000-1328.2021.06.010
Publication status	Published - 30 Jun 2021

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title = "模型不确定的空间机器人无力传感器阻抗控制方法",

abstract = "A force sensorless impedance control approach is proposed for the collision between the free-floating space robot and the captured object by taking the dynamic parameters uncertainty into account. The contact force identified by the neural network and the other contact force observed by the inaccurate dynamic model are both employed as the estimated contact force between the end effector and the target object as well as the feedback of the impedance controller. The method enables the space robot to flexibly capture the service object even if the dynamic parameters are uncertain and the force sensor is not assembled. The numerical simulation results show that this method can effectively reduce the requirement for the precision of space robot dynamics modeling and is practical in engineering.",

keywords = "Force estimation, Impedance control, On-orbit capture, Sensorless, Space robot",

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AU - Tao, Dong

AU - Zhang, Qiang

AU - Zhao, Liang Yu

PY - 2021/6/30

Y1 - 2021/6/30

N2 - A force sensorless impedance control approach is proposed for the collision between the free-floating space robot and the captured object by taking the dynamic parameters uncertainty into account. The contact force identified by the neural network and the other contact force observed by the inaccurate dynamic model are both employed as the estimated contact force between the end effector and the target object as well as the feedback of the impedance controller. The method enables the space robot to flexibly capture the service object even if the dynamic parameters are uncertain and the force sensor is not assembled. The numerical simulation results show that this method can effectively reduce the requirement for the precision of space robot dynamics modeling and is practical in engineering.

AB - A force sensorless impedance control approach is proposed for the collision between the free-floating space robot and the captured object by taking the dynamic parameters uncertainty into account. The contact force identified by the neural network and the other contact force observed by the inaccurate dynamic model are both employed as the estimated contact force between the end effector and the target object as well as the feedback of the impedance controller. The method enables the space robot to flexibly capture the service object even if the dynamic parameters are uncertain and the force sensor is not assembled. The numerical simulation results show that this method can effectively reduce the requirement for the precision of space robot dynamics modeling and is practical in engineering.

KW - Force estimation

KW - Impedance control

KW - On-orbit capture

KW - Sensorless

KW - Space robot

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模型不确定的空间机器人无力传感器阻抗控制方法

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