基于鲁棒滑模的阻抗控制

Proceedings of IEEE International Conference on Intelligent Engineering Systems Pub Date : 1997-09-15 DOI:10.1109/INES.1997.632396

A. Hace, S. Uran, K. Jezernik, B. Curk

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引用次数: 9

摘要

工业机器人面临着与环境发生接触的任务。因此，需要具有位置跟踪性能和力控制能力的控制算法。针对机器人运动和力的控制，已经提出了许多算法。它们主要可以分为两类，即混合控制，即根据正交性原则分别观察机器人的约束自由度和无约束自由度;阻抗控制中，为了保证机器人与环境稳定的动态交互，机器人需要采用质量、阻尼和刚度等物理特性。本文提出了基于滑模吸引理论的鲁棒阻抗控制律。该控制律保证了机器人具有预定义的阻抗，因此讨论了基于阻抗特性的力调节。在一个简单的1自由度机构上进行了实验，验证了理论的正确性。

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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Robust sliding mode based impedance control

Industrial robots are confronted with performing tasks where a contact with their environment occurs. Therefore, a need for control algorithms with position tracking performance and force control ability appears. Many algorithms have been proposed which deal with robot motion and force control. They could be mainly separated into two classes, namely: hybrid control, where constrained and unconstrained DOFs of the robot are observed separately based on the principle of the orthogonality; and impedance control where the robot should adopt some physical properties such as mass, damping and stiffness in order to assure stable dynamic interaction with the environment. In this paper the robust impedance control law based on the attractive theory of sliding mode is proposed. The control law guarantees a robot predefined impedance and therefore force regulation based on impedance properties is discussed. Experimental results on a simple 1 DOF mechanism is shown to verify theoretical statements.

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Proceedings of IEEE International Conference on Intelligent Engineering Systems

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