An Integrated Framework for Predicting Health Based on Sensor Data Using Machine Learning

2020 2nd International Conference on Advancements in Computing (ICAC) Pub Date : 2020-12-10 DOI:10.1109/ICAC51239.2020.9357134

K. N. Jayaweera, K. M. C Kallora, N. A. C K Subasinghe, L. Rupasinghe, C. Liyanapathirana

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Abstract

According to recent studies, the majority of the world's population shows a lack of concern in their health. As a consequence, the non-communicable disease rate has increased dramatically. Amongst these diseases, heart diseases have caused the most catastrophic situations. Apart from the busy lifestyle, studies also show that stress is another factor that causes these diseases. Therefore, the focus of our research is to provide a user-friendly health monitoring system that causes minimum disturbance to its users. However, many studies have focused on predicting health; very few have focused on its usability. The objective of our research is to predict the possibility of cardiac arrests and the presence of stress in real-time using a wearable device prototype. The system uses biometric signals obtained from the photoplethysmogram sensor embedded in the wearable device to perform real-time predictions. We trained three models using random forest, k-nearest neighbor, and logistic regression classification algorithms to predict sudden cardiac arrests with accuracies 99.93%, 99.10%, and 94.47%, respectively. Further, we trained three additional models to predict stress using the same algorithms with accuracies 99.87%, 96.83%, and 65.00%, respectively. Thus, the results of this study show that an integrated framework, capable of predicting different health-related conditions, through sensor data collected from wearable sensors, is feasible.

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基于传感器数据的机器学习健康预测集成框架

根据最近的研究，世界上大多数人对自己的健康缺乏关注。因此，非传染性疾病的发病率急剧上升。在这些疾病中，心脏病造成的后果最为严重。除了繁忙的生活方式，研究还表明，压力是导致这些疾病的另一个因素。因此，我们的研究重点是提供一个用户友好的健康监测系统，使其对用户的干扰最小。然而，许多研究都集中在预测健康;很少有人关注它的可用性。我们研究的目的是使用可穿戴设备原型实时预测心脏骤停的可能性和压力的存在。该系统使用从嵌入在可穿戴设备中的光电容积脉搏图传感器获得的生物识别信号来执行实时预测。我们使用随机森林、k近邻和逻辑回归分类算法训练了三个模型，分别以99.93%、99.10%和94.47%的准确率预测心脏骤停。此外，我们还训练了另外三个模型来使用相同的算法预测应力，准确率分别为99.87%、96.83%和65.00%。因此，本研究结果表明，能够通过从可穿戴传感器收集的传感器数据预测不同健康状况的集成框架是可行的。

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 2nd International Conference on Advancements in Computing (ICAC)

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