Concurrent Plantar Stress Sensing and Energy Harvesting Technique by Piezoelectric Insole Device and Rectifying Circuitry for Gait Monitoring in the Internet of Health Things

Shuaibo Kang, Jingjing Lin, Junliang Chen, Yanning Dai, Zhiheng Wang, Shuo Gao
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引用次数: 1

Abstract

Concurrent high force detection accuracy and extended battery lifetime are strongly expected in wearable gait monitoring systems, which are important for many Internet of Health Things (IoHT) applications. In this article, a piezoelectric insole device and rectifying circuitry based technique is presented to achieve these two ultimate goals. Here, walking induced positive and negative charges are separated for plantar stress detection and energy harvesting respectively, realizing the two functions concurrently. Experimental results demonstrate that first, the high detection sensitivity of 55 mN and responsivity of 231 mV/N are achieved, satisfying the need for diagnosing various diseases; second, energy of 1.6 pJ is stored during a walking event, consequently extending the battery lifetime. The developed technique enhances the development of gait monitoring in IoHT.
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基于压电式鞋垫装置和整流电路的同步足底应力传感和能量采集技术用于健康物联网中步态监测
对于许多健康物联网(IoHT)应用来说,可穿戴步态监测系统强烈期望同时具有高力检测精度和更长的电池寿命。在本文中,压电内底装置和基于整流电路的技术提出了实现这两个最终目标。在这里,步行引起的正电荷和负电荷被分离,分别用于足底应力检测和能量收集,同时实现两种功能。实验结果表明:首先,实现了55 mN的高检测灵敏度和231 mV/N的响应度,满足了诊断各种疾病的需要;其次,1.6 pJ的能量在行走过程中储存,从而延长电池寿命。该技术的发展促进了IoHT中步态监测的发展。
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