Cr-N alloy thin-film based torque sensors and joint torque servo systems for compliant robot control

2013 IEEE International Conference on Robotics and Automation Pub Date : 2013-05-06 DOI:10.1109/ICRA.2013.6631285
Y. Kuroki, Y. Kosaka, Taro Takahashi, E. Niwa, H. Kaminaga, Yoshihiko Nakamura
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引用次数: 44

Abstract

This paper proposes a new torque sensing method, Cr-N alloy strain sensitive thin-film based torque sensors and distributed joint torque servo systems that enable human support robots to have capabilities to make physical interaction in adaptive and safe operation tasks. Stiffer torque sensing with stable and high-resolution sensing to meet practical level of the developed torque sensors have been achieved. We have developed the joint torque control based 4-DOF arm models in order to verify practical effectiveness of the proposed joint torque servo systems. We also demonstrated the joint torque control based bilateral master slave system exploring future applications.
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用于柔性机器人控制的Cr-N合金薄膜扭矩传感器和关节扭矩伺服系统
本文提出了一种新的扭矩传感方法,即基于Cr-N合金应变敏感薄膜的扭矩传感器和分布式关节扭矩伺服系统,使人支撑机器人能够在自适应和安全的操作任务中具有物理交互能力。已开发的扭矩传感器实现了更刚性、高分辨率、稳定的扭矩传感,满足了现有扭矩传感器的实际应用水平。为了验证所提出的关节转矩伺服系统的实际有效性,我们建立了基于四自由度臂的关节转矩控制模型。我们还展示了基于联合转矩控制的双边主从系统,探索了未来的应用前景。
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2013 IEEE International Conference on Robotics and Automation
2013 IEEE International Conference on Robotics and Automation
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