Force-Control Capabilities for Lightweight Industrial Robots

2022 26th International Conference on Methods and Models in Automation and Robotics (MMAR) Pub Date : 2022-08-22 DOI:10.1109/MMAR55195.2022.9874326

Christian Thormann, M. Matour, Alexander W. Winkler

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引用次数: 1

Abstract

This paper investigates the capabilities of lightweight industrial robots with respect to force/torque control. Two robots were chosen for this investigation. One robot was equipped with an internal force/torque sensor, while the other used motor current values to measure forces and torques. Many approaches of robot force control have been examined in the past. However, it is often difficult to implement these algorithms in commercial systems, as the robot controller lacks adequate programming features. The robotic system used in this paper included a precast functions for force control. It seems necessary to study the behavior of such robots when force control is activated. In particular, we analyzed the forces where the end-effector made contact with its environment (coming from free space). In the case of persistent contact, the desired contact force was altered, and the step responses were investigated. In addition, a more complex task involving force control was developed and presented to evaluate the quality of the precast force-control functions.

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轻型工业机器人的力控能力

本文研究了轻型工业机器人在力/扭矩控制方面的能力。本次调查选择了两个机器人。其中一个机器人配备了内力/扭矩传感器，而另一个机器人使用电机电流值来测量力和扭矩。过去已经研究了许多机器人力控制的方法。然而，由于机器人控制器缺乏足够的编程功能，通常很难在商业系统中实现这些算法。本文所使用的机器人系统包括一个预制功能，用于力控制。似乎有必要研究这种机器人在力控制激活时的行为。特别地，我们分析了末端执行器与其环境(来自自由空间)接触的力。在持续接触的情况下，改变了期望的接触力，并研究了阶跃响应。此外，开发并提出了一个更复杂的涉及力控制的任务，以评估预制力控制函数的质量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2022 26th International Conference on Methods and Models in Automation and Robotics (MMAR)

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