High-Performance Textile-Based Capacitive Strain Sensors via Enhanced Vapor Phase Polymerization of Pyrrole and Their Application to Machine Learning-Assisted Hand Gesture Recognition

IF 6.8 Q1 AUTOMATION & CONTROL SYSTEMS
Pierre Kateb, Alice Fornaciari, Chakaveh Ahmadizadeh, Alexander Shokurov, Fabio Cicoira, Carlo Menon
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引用次数: 0

Abstract

Sensors based on everyday textiles are extremely promising for wearable applications. The present work focuses on high-performance textile-based capacitive strain sensors. Specifically, a conductive textile is obtained via vapor-phase polymerization of pyrrole, in which the usage of methanol co-vapor and the addition of imidazole to the iron chloride oxidant solution are shown to maximize conductivity. A technique to provide insulation and mechanical resistance using thermoplastic polyurethane and polystyrene-block-polyisoprene-block-polystyrene/barium titanate composite is developed. Such insulated conductive elastics are then used to fabricate highly sensitive twisted yarn capacitive sensors. A textile glove is subsequently embedded with such sensors. The wireless measurement and transmission system demonstrate efficacy in capturing capacitance variations upon strain and monitoring hand motions. A machine learning model to recognize 12 gestures is implemented—100% classification accuracy is obtained.

Abstract Image

通过增强吡咯气相聚合的高性能纺织品电容式应变传感器及其在机器学习辅助手势识别中的应用
基于日常纺织品的传感器在可穿戴应用中大有可为。本研究的重点是基于纺织品的高性能电容式应变传感器。具体来说,通过吡咯的气相聚合作用获得了导电纺织品,在此过程中,使用甲醇共蒸气和在氯化铁氧化剂溶液中添加咪唑可最大限度地提高导电性。利用热塑性聚氨酯和聚苯乙烯-块状-聚异戊二烯-块状-聚苯乙烯/钛酸钡复合材料,开发了一种提供绝缘和机械阻力的技术。这种绝缘导电弹性体随后被用于制造高灵敏度的捻线电容式传感器。随后,在纺织手套中嵌入了这种传感器。无线测量和传输系统在捕捉应变时的电容变化和监测手部动作方面表现出了功效。该系统采用机器学习模型来识别 12 种手势,分类准确率达到 100%。
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来源期刊
CiteScore
1.30
自引率
0.00%
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审稿时长
4 weeks
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