工业机械臂低成本模块化触觉表面传感器的材料比较与设计

Jan Niklas Haus, Arne Muxfeldt, Daniel Kubus
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引用次数: 6

摘要

工业制造环境中的物理人机交互(pHRI)需要可靠的环境感知能力,通常采用多种传感器模式,特别是触觉传感器矩阵,以促进人与机器人接触的管理。然而,它们的高成本仍然阻碍了pHRI在制造环境中的大规模集成。为了开发用于pHRI应用的低成本触觉传感器矩阵,我们研究了五种具有成本效益的压阻材料及其对触觉传感器矩阵的适用性。由于滞后和漂移会严重恶化触觉传感器的性能,因此需要特别注意这些特性。对于显然最好的材料和非常低成本的替代方案,使用机器学习方法对输入输出行为进行建模。个别税种投入产出行为的差异相对较低,从而大大简化了参数识别和校准。
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Material comparison and design of low cost modular tactile surface sensors for industrial manipulators
Physical human robot interaction (pHRI) in industrial manufacturing environments requires reliable environment perception capabilities usually employing multiple sensor modalities and particularly tactile sensor matrices to facilitate the management of human robot contacts. However, their high cost still impedes the large-scale integration of pHRI in manufacturing environments. To enable the development of low-cost tactile sensor matrices for pHRI applications, we examine five cost-effective piezoresistive materials w.r.t. their suitability for tactile sensor matrices. Since hysteresis and drift can severely deteriorate the performance of a tactile sensor, particular attention is paid to these properties. For the apparently best material and a very low-cost alternative, the input-output behavior is modeled using a machine learning approach. The differences in the input-output behavior of the individual taxels are comparatively low - thus significantly simplifying parameter identification and calibration.
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