Flexible Pressure Mapping Platform for Mobility Monitoring Applications

International Conference on Physiological Computing Systems Pub Date : 1900-01-01 DOI:10.5220/0004719500330039

S. Cruz, Daniel Dias, J. Viana, L. A. Rocha

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Abstract

The goal of the work presented here is the development, integration and testing of an innovative technological approach to be the basis for a new product and service for markets associated with the “Health” vector. Our research focuses on a Physiological computing approach, where a polymeric flexible detection system, working as the sensing element is used as an input channel, and a computing system is responsible for the physiological signals synthesis. The proposed solution provides a simpler, lower cost and larger scale manufacturing production of polymer based sensors, along with an electronic interface and the software design. The sensing platform consists in a flexible PCB (Printed Circuit Boards) manufactured using conventional technology (defining the electrical connections and the capacitors dimensions) together with two flexible polymeric membranes (TPU) printed with conductive ink (Plexcore®) for definition of the electrodes. A Capacitance to Digital Converter (CDC) is used to measure the capacitance of the sensors, and a graphical interface in MATLAB allows real-time visualization of data. Current results performed on the pressure sensors indicate the feasibility of the approach.

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移动监测应用的柔性压力测绘平台

这里介绍的工作的目标是开发、整合和测试一种创新的技术方法，作为面向与"健康"媒介有关的市场的新产品和服务的基础。我们的研究重点是生理计算方法，其中聚合物柔性检测系统作为传感元件作为输入通道，计算系统负责生理信号的合成。该解决方案提供了一种更简单、成本更低、规模更大的聚合物传感器制造方法，以及电子接口和软件设计。传感平台由使用传统技术(定义电气连接和电容器尺寸)制造的柔性PCB(印刷电路板)以及用导电油墨(Plexcore®)印刷的两个柔性聚合物膜(TPU)组成，用于定义电极。电容到数字转换器(CDC)用于测量传感器的电容，并在MATLAB中使用图形界面实现数据的实时可视化。目前在压力传感器上执行的结果表明了该方法的可行性。

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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International Conference on Physiological Computing Systems

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