Preliminary experimental study on the sensing performance of a capacitive tactile sensor array mounted on curved surfaces

2015 IEEE International Conference on Advanced Intelligent Mechatronics (AIM) Pub Date : 2015-07-07 DOI:10.1109/AIM.2015.7222651

Guanhao Liang, Yan-cheng Wang, Deqing Mei, Kailun Xi, Zichen Chen

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Abstract

In real applications, the capacitive tactile sensor array usually needs to be mounted on curved surfaces. To study the effect of curved surfaces on the sensing performance of the sensor array, we have fabricated the sensor array with 4 × 4 sensor units. Four types of rigid and flexible curved surfaces are selected to mount the sensor array, with radius of curvature of +∞, 40 mm, 30 mm, and 20 mm. The initial capacitances of the sensor array increase as the radius of the surfaces decrease. By applying normal and shear forces to the sensor unit mounted on the curved surfaces, we have found that as the radius of the surface decrease, the capacitance increases faster when the sensor is mounted on 40 mm curved surfaces, and increases slower on 30 mm and 20 mm curved surfaces. The shear forces in the x- and y-axes cause symmetric and asymmetric capacitance changes to the sensor unit, respectively. The flexible curved surfaces can induce larger capacitance changes to the sensor unit, compared with the rigid ones.

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一种安装在曲面上的电容式触觉传感器阵列传感性能的初步实验研究

在实际应用中，电容式触觉传感器阵列通常需要安装在曲面上。为了研究曲面对传感器阵列传感性能的影响，我们制作了4 × 4传感器单元的传感器阵列。传感器阵列选择刚性曲面和柔性曲面四种类型进行安装，曲率半径分别为+∞、40mm、30mm和20mm。传感器阵列的初始电容随着表面半径的减小而增大。通过对安装在曲面上的传感器单元施加法向力和剪力，我们发现，随着曲面半径的减小，传感器安装在40 mm曲面上时，电容增加得更快，而安装在30 mm和20 mm曲面上时，电容增加得更慢。x轴和y轴上的剪切力分别引起传感器单元的对称和非对称电容变化。与刚性曲面相比，柔性曲面能引起传感器单元更大的电容变化。

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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2015 IEEE International Conference on Advanced Intelligent Mechatronics (AIM)

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