Sensor-guided motions for robot-based component testing

2022 Sixth IEEE International Conference on Robotic Computing (IRC) Pub Date : 2022-12-01 DOI:10.1109/IRC55401.2022.00021
Julian Hanke, Christian Eymüller, Alexander Poeppel, Julia Reichmann, A. Trauth, M. Sause, W. Reif
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引用次数: 1

Abstract

This paper presents the use of sensor-guided motions for robot-based component testing to compensate the robot’s path deviations under load. We implemented two different sensor-guided motions consisting of a 3D camera system to minimize the absolute deviation and a force/torque sensor mounted directly to the robot’s end effector to minimize occurring transverse forces and torques. We evaluated these two sensor-guided motions in our testing facility with a classical tensile test and a heavy-duty industrial robot. From the obtained results, it can be stated, that transverse forces as well as the absolute deviation were significantly reduced.
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基于机器人组件测试的传感器引导运动
本文提出了利用传感器引导运动对机器人部件进行测试,以补偿机器人在负载下的路径偏差。我们实现了两种不同的传感器引导运动,包括一个3D相机系统,以最小化绝对偏差,一个力/扭矩传感器直接安装在机器人的末端执行器上,以最小化发生的横向力和扭矩。在我们的测试设备中,我们用经典的拉伸测试和重型工业机器人来评估这两种传感器引导的运动。从得到的结果可以看出,横向力和绝对偏差都大大减小了。
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2022 Sixth IEEE International Conference on Robotic Computing (IRC)
2022 Sixth IEEE International Conference on Robotic Computing (IRC)
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