Feature importance methods unveiling the cross-sensitive response of an integrated sensor array to quantify major cations in drinking water

2022 IEEE Sensors Pub Date : 2022-10-30 DOI:10.1109/SENSORS52175.2022.9967157
Gianmarco Gabrieli, Michal Muszynski, P. Ruch
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Abstract

A proof-of-concept system comprising a miniaturized sensor array, feature extraction and machine learning pipeline was evaluated for the direct quantification of the concentrations of three major cations, Ca2+, Mg2+, and Na+, in drinking water. Feature importance methods were applied to discover dependencies between the transient potentiometric responses of sensing materials and the cation concentrations. The proposed framework supports design of cross-sensitive sensor arrays to accelerate water testing, providing a complementary approach to traditional chemical analysis for monitoring water quality.
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特征重要性方法揭示了集成传感器阵列的交叉敏感响应,以量化饮用水中的主要阳离子
一个概念验证系统包括一个小型化的传感器阵列,特征提取和机器学习管道进行评估,以直接量化饮用水中三种主要阳离子,Ca2+, Mg2+和Na+的浓度。应用特征重要度方法发现感应材料的瞬态电位响应与阳离子浓度之间的依赖关系。提出的框架支持交叉敏感传感器阵列的设计,以加快水测试,为传统的化学分析监测水质提供了一种补充方法。
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2022 IEEE Sensors
2022 IEEE Sensors
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