Intelligent Variable Joint Impedance Control and Development of a New Whole-Sensitive Anthropomorphic Robot Arm

2007 International Symposium on Computational Intelligence in Robotics and Automation Pub Date : 2007-06-20 DOI:10.1109/CIRA.2007.382885

D. Tsetserukou, R. Tadakuma, H. Kajimoto, N. Kawakami, S. Tachi

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引用次数: 20

Abstract

The paper focuses on design and control of a new anthropomorphic robot arm enabling the torque measurement in each joint to ensure safety while performing tasks of physical interaction with human and environment. When the contact of the arm with an object occurs, local impedance algorithm provides active compliance of corresponding robot arm joint. Thus, the whole structure of the manipulator can safely interact with unstructured environment. A novel variable control strategy was elaborated to increase the robot functionality and to achieve human-like dynamics of interaction. In the paper, we detail the design procedure of 4-DOF robot arm and optical torque sensors. The experimental results of variable joint impedance control show that proposed approach not only provides safe interaction of entire structure of robot arm with a person, but also improves the effectiveness of contact task performance, enables thus to contact with environment in a delicate manner.

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智能可变关节阻抗控制及新型全灵敏拟人机械臂的研制

本文重点研究了一种新型拟人机器人手臂的设计与控制，使其能够在每个关节进行扭矩测量，以确保在执行与人与环境的物理交互任务时的安全性。当机械臂与物体发生接触时，局部阻抗算法提供相应机械臂关节的主动顺应性。因此，机械臂的整体结构可以安全地与非结构化环境相互作用。提出了一种新的变量控制策略，以增加机器人的功能并实现类人的交互动力学。本文详细介绍了四自由度机械臂和光转矩传感器的设计过程。可变关节阻抗控制的实验结果表明，该方法不仅能保证机械臂整体结构与人的安全交互，而且提高了接触任务性能的有效性，从而实现与环境的精细接触。

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

2007 International Symposium on Computational Intelligence in Robotics and Automation

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