基于深度残差网络对ECG、PPG和IMU传感器的运动活动进行分类

S. Mekruksavanich, Ponnipa Jantawong, Narit Hnoohom, A. Jitpattanakul
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引用次数: 1

摘要

人类活动识别(HAR)在一些工业应用中发挥着越来越重要的作用,包括医疗服务和康复监测。随着信息通信技术的快速发展,可穿戴技术引发了一种新的人机交互方式。可穿戴惯性传感器(imu)通常用于HAR领域,因为该数据源提供了最具洞察力的运动信号数据。最近,HAR研究利用生物信号如心电图(ECG)和光电容积脉搏波(PPG)来检测活动识别的增强。然而,目前的HAR研究受到依赖于人工特征提取的机器学习技术的限制。本研究提出了一种深度学习技术,利用ECG、PPG和IMU传感器数据有效识别身体活动行为。ResNet-SE是一种深度残差网络,它结合了卷积处理、快捷连接和挤压-兴奋功能。我们训练和评估了基线深度学习模型,以评估建议的网络,包括建议的模型,使用公共HAR数据集(称为腕值ppg数据集)。实验结果表明,本文提出的方法获得了f1评分的最高准确率。此外,我们的研究结果表明,PPG数据可以用来分类体育锻炼。
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Classification of Physical Exercise Activity from ECG, PPG and IMU Sensors using Deep Residual Network
Human activity recognition (HAR) plays an increasingly vital role in several industrial applications, including medical services and rehabilitation surveillance. With the fast growth of information and communications technology, wearable technologies have recently triggered a new human-computer interaction. Wearable inertial sensors (IMUs) are commonly used in the area of HAR because this data source provides the most insightful motion signal data. Lately, HAR studies have examined the enhancement of activity recognition using bio-signals like Electrocardiogram (ECG) and Photoplethysmography (PPG). Nevertheless, current HAR research was constrained by machine learning techniques that relied on human-crafted feature extraction. This research proposed a deep learning technique to effectively identify physical activity behaviors using ECG, PPG, and IMU sensor data. ResNet-SE is a deep residual network that incorporates convolutional processes, shortcut connections, and squeeze-and-excitement. We trained and evaluated baseline deep learning models to assess the suggested network, including the proposed model, using the public HAR dataset called Wrist_PPG dataset. According to experimental findings, the suggested method earned the most fantastic accuracy of F1-score. In addition, our results indicate that the PPG data can be utilized to classify physical workouts.
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