Spatially Transparent Tactile Sensor Utilizing Electromechanical Properties of Skin (Special Editorials : Five Selected Articles in ABE)

Q4 Engineering
Shunsuke Yoshimoto, Yoshihiro Kuroda, M. Imura
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引用次数: 3

Abstract

Because touch is a mechanical interaction between the skin and an object, unconstrained tactile sensing is a challenging issue. In this research we studied spatial transparency, a new concept in unconstrained tactile sensing that allows collection of tactile information without affecting the touch conditions. Especially, we aimed at developing a spatially transparent tactile sensor that detects touch information with high dynamic range from any part of the body. For the development of such sensors, this report focuses on the electromechanical properties of the skin, particularly elasticity and conductivity, and proposes a novel tactile sensor based on measurement of the electrical contact impedance between the skin and an object. The measurement of skin contact impedance is achieved using a grounding electrode and two signal electrodes attached to any part of the body. We investigated the relationship between touch force and output of the proposed sensor using a force sensor. The experimental results indicate that the proposed sensor functions adequately as an unconstrained tactile sensor, and confirm that the proposed sensing system has an excellent dynamic range.
利用皮肤机电特性的空间透明触觉传感器(特别社论:5篇精选文章)
因为触觉是皮肤和物体之间的机械相互作用,不受约束的触觉感知是一个具有挑战性的问题。在本研究中,我们研究了空间透明度这一无约束触觉传感的新概念,它允许在不影响触摸条件的情况下收集触觉信息。特别是,我们的目标是开发一种空间透明的触觉传感器,可以检测来自身体任何部位的高动态范围的触摸信息。对于此类传感器的开发,本报告侧重于皮肤的机电特性,特别是弹性和导电性,并提出了一种基于测量皮肤与物体之间电接触阻抗的新型触觉传感器。皮肤接触阻抗的测量是通过一个接地电极和两个连接在身体任何部位的信号电极来实现的。我们使用力传感器研究了触摸力与所提出传感器输出之间的关系。实验结果表明,该传感器具有良好的无约束触觉传感器功能,并证实了该传感系统具有良好的动态范围。
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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