Improving Inertial Sensor-based Human Activity Recognition using Ensemble Deep Learning

Q3 Engineering Transactions on Electrical Engineering, Electronics, and Communications Pub Date : 2023-03-22 DOI:10.1109/ECTIDAMTNCON57770.2023.10139689

P. Rojanavasu, Ponnipa Jantawong, A. Jitpattanakul, S. Mekruksavanich

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Abstract

Sensor-based human activity recognition (S-HAR) is a famous study focusing on detecting human physiological actions by interpreting various sensors, especially one-dimensional time series information. Typically, S-HAR machine learning methods were developed using handcrafted characteristics. Unfortunately, this is a complicated process that involves feature engineering and a high level of domain knowledge. Due to the development of deep neural networks, classification techniques could efficiently handle relevant characteristics from raw sensor data, resulting in enhanced classification outcomes. In this study, we describe a unique method for S-HAR based on ensemble deep learning with sensor nodes connected to the waist, chest, leg, and arm. Implementing and training three deep learning networks is performed using a publically available dataset, including wearable sensors from eight human actions. The findings demonstrate that the proposed Ens-ResNeXt model provides the maximum accuracy and F1-score, which is superior to existing techniques.

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利用集成深度学习改进基于惯性传感器的人体活动识别

基于传感器的人体活动识别(S-HAR)是一项著名的研究，主要是通过解释各种传感器，特别是一维时间序列信息来检测人体的生理行为。通常，S-HAR机器学习方法是使用手工制作的特征开发的。不幸的是，这是一个复杂的过程，涉及到特征工程和高水平的领域知识。由于深度神经网络的发展，分类技术可以有效地处理原始传感器数据的相关特征，从而提高分类结果。在这项研究中，我们描述了一种独特的基于集成深度学习的S-HAR方法，该方法将传感器节点连接到腰部、胸部、腿部和手臂。使用一个公开可用的数据集来实现和训练三个深度学习网络，包括来自八种人类行为的可穿戴传感器。研究结果表明，所提出的Ens-ResNeXt模型提供了最高的准确率和f1分数，优于现有的技术。

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来源期刊

Transactions on Electrical Engineering, Electronics, and Communications Engineering-Electrical and Electronic Engineering

CiteScore

1.60

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0.00%

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