Application of Convolutional Neural Network Algorithms for Advancing Sedentary and Activity Bout Classification.

Journal for the measurement of physical behaviour Pub Date : 2021-06-01 Epub Date: 2021-02-25 DOI:10.1123/jmpb.2020-0016

Supun Nakandala, Marta M Jankowska, Fatima Tuz-Zahra, John Bellettiere, Jordan A Carlson, Andrea Z LaCroix, Sheri J Hartman, Dori E Rosenberg, Jingjing Zou, Arun Kumar, Loki Natarajan

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引用次数: 11

Abstract

Background: Machine learning has been used for classification of physical behavior bouts from hip-worn accelerometers; however, this research has been limited due to the challenges of directly observing and coding human behavior "in the wild." Deep learning algorithms, such as convolutional neural networks (CNNs), may offer better representation of data than other machine learning algorithms without the need for engineered features and may be better suited to dealing with free-living data. The purpose of this study was to develop a modeling pipeline for evaluation of a CNN model on a free-living data set and compare CNN inputs and results with the commonly used machine learning random forest and logistic regression algorithms.

Method: Twenty-eight free-living women wore an ActiGraph GT3X+accelerometer on their right hip for 7 days. A concurrently worn thigh-mounted activPAL device captured ground truth activity labels. The authors evaluated logistic regression, random forest, and CNN models for classifying sitting, standing, and stepping bouts. The authors also assessed the benefit of performing feature engineering for this task.

Results: The CNN classifier performed best (average balanced accuracy for bout classification of sitting, standing, and stepping was 84%) compared with the other methods (56% for logistic regression and 76% for random forest), even without performing any feature engineering.

Conclusion: Using the recent advancements in deep neural networks, the authors showed that a CNN model can outperform other methods even without feature engineering. This has important implications for both the model's ability to deal with the complexity of free-living data and its potential transferability to new populations.

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卷积神经网络算法在推进久坐与活动回合分类中的应用。

背景:机器学习已被用于从臀部佩戴的加速度计中对物理行为进行分类;然而，由于“在野外”直接观察和编码人类行为的挑战，这项研究受到了限制。深度学习算法，如卷积神经网络(cnn)，可能比其他机器学习算法提供更好的数据表示，而不需要工程特征，可能更适合处理自由生活的数据。本研究的目的是开发一个建模管道，用于在自由生活数据集上评估CNN模型，并将CNN的输入和结果与常用的机器学习随机森林和逻辑回归算法进行比较。方法:28名自由生活的女性在右臀部佩戴ActiGraph GT3X+加速度计7天。同时佩戴在大腿上的activPAL设备捕获地面真实活动标签。作者评估了逻辑回归、随机森林和CNN模型对坐姿、站立和行走的分类。作者还评估了为该任务执行特征工程的好处。结果:即使没有执行任何特征工程，与其他方法(逻辑回归56%，随机森林76%)相比，CNN分类器表现最好(坐下、站立和行走的平均平衡准确率为84%)。结论:利用深度神经网络的最新进展，作者表明即使没有特征工程，CNN模型也可以优于其他方法。这对该模型处理自由生活数据的复杂性的能力及其对新种群的潜在可转移性都具有重要意义。

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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来源期刊

Journal for the measurement of physical behaviour

CiteScore

2.90

自引率

0.00%

发文量