Preliminary investigation into low-cost stretch sensors for stomach deformation measurement

2020 IEEE Sensors Applications Symposium (SAS) Pub Date : 2020-03-01 DOI:10.1109/SAS48726.2020.9220062

G. Olson, C. Davies, G. S. Gupta, Rose Davies, L. Fullard

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Abstract

Physical simulation of gastric tract motility, through the use of controlled flexi-walled reactors, can benefit from measured feedback of the amount of stretch that regions of the deformable membrane wall undergo. Appropriate sensors need to be at least as flexible as the surface they are mounted on, and have the ability to stretch to the same extent. One method for measuring the stretch of highly flexible membrane walls is through the use of conductive ionic fluids encased in a flexible elastomer. A change in resistance can be measured between two terminals of the ionic liquid pathway as the sensor strip undergoes stretch deformation. A simple, low-cost approach to fabricating this form of sensor is to encase a conductive saline solution in a highly flexible silicone tube, with electrodes placed in contact with the fluid at the two ends of the sealed tube. Initial results indicate that this basic approach provides good stability and repeatability of resistance measurement readings during stretching. Further testing of the characteristics of this type of sensor is required to properly assess its capabilities against commercial stretch sensors and state-of-the-art devices.

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用于胃变形测量的低成本拉伸传感器初步研究

胃道运动的物理模拟，通过使用可控柔性壁反应器，可以受益于可变形膜壁区域所经历的拉伸量的测量反馈。合适的传感器需要至少和它们所安装的表面一样灵活，并且有能力伸展到相同的程度。测量高度柔性膜壁拉伸的一种方法是使用包裹在柔性弹性体中的导电离子流体。当传感器条发生拉伸变形时，可以测量到离子液体通路两端的电阻变化。制造这种传感器的一种简单、低成本的方法是将导电盐水溶液包裹在一个高度柔性的硅胶管中，电极放置在密封管的两端与液体接触。初步结果表明，这种基本方法在拉伸过程中提供了良好的稳定性和可重复性电阻测量读数。需要进一步测试这种类型传感器的特性，以正确评估其与商用拉伸传感器和最先进设备的能力。

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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2020 IEEE Sensors Applications Symposium (SAS)

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