Sensorless Impedance Control for the UR5 Robot

2020 International Conference on Control, Automation and Diagnosis (ICCAD) Pub Date : 2020-10-01 DOI:10.1109/ICCAD49821.2020.9260525

Joao Fabian, Facundo García-Cárdenas, Ruth Canahuire, O. E. Ramos

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引用次数: 1

Abstract

Robot manipulators are designed to interact with their surroundings. Even if a task does not specifically involve interaction, the robot may collide with unknown obstacles during its motion. To overcome these problems, it is necessary to consider possible interactions inside the control system. This paper aims to design a controller that allows the manipulator to reach a final pose, even if it interacts with an unforeseen object during its trajectory. This design is composed of two stages: a feedback linearization system that allows to eliminate intrinsic nonlinearities of the robot, and the imposition of a dynamic behavior to keep delicate interactions without using external 6D force/torque sensors. The proposed controller was tested on an UR5 robot, but can be extended to any robotic manipulator. The results show the comparison between the behavior achieved by a standard feedback-linearized position controller, and a sensor-free impedance controller, both for environments with and without unknown obstacles, in which the proposed controller generated smoother and more precise trajectories.

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UR5机器人的无传感器阻抗控制

机器人操纵器被设计成与周围环境相互作用。即使一个任务没有特别涉及交互，机器人也可能在运动过程中与未知的障碍物发生碰撞。为了克服这些问题，有必要考虑控制系统内部可能的相互作用。本文旨在设计一种控制器，使机械臂即使在其轨迹中与不可预见的物体相互作用也能达到最终姿态。该设计由两个阶段组成:一个反馈线性化系统，允许消除机器人的固有非线性，以及一个动态行为的强加，以保持微妙的相互作用，而不使用外部6D力/扭矩传感器。所提出的控制器在UR5机器人上进行了测试，但可以扩展到任何机器人机械手。结果表明，在有未知障碍物和没有未知障碍物的环境中，标准反馈线性化位置控制器和无传感器阻抗控制器所获得的行为进行了比较，在这种情况下，所提出的控制器产生的轨迹更平滑、更精确。

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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2020 International Conference on Control, Automation and Diagnosis (ICCAD)

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