The development of an automated assessment system for resistance training movement.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-03-21 DOI:10.1080/14763141.2024.2329066
Rylea Hart, Heather Smith, Yanxin Zhang
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Abstract

Portable data collection devices and machine learning (ML) have been combined in autonomous movement analysis models for resistance training (RT) movements. However, input features for these models were mostly extracted empirically and subsequent models demonstrated limited interpretability and generalisability to real-world settings. This study aimed to investigate the utility of interpretable and generalisable modelling techniques and several data-driven feature extraction (FE) methods. This was achieved by developing machine learning movement analysis models for the barbell back squat and deadlift using markerless motion capture. 61 participants performed submaximal and maximal repetitions of both RT movements. Movement data was collected using two Azure Kinect cameras. Joint and segment kinematic variables were calculated from the collected depth imaging, and input features were extracted using traditional, manual FE methods and novel data-driven techniques. Classifiers were developed for several predefined technical deviations for both movements. Many of the addressed technical deviations could be classified with good levels of accuracy (≥70%) while the remainder were poor (55%-60%). Additionally, data-driven FE techniques were comparable to previous, traditional FE methods. Interpretable and generalisable modelling techniques can be utilised to good effect for certain classification tasks while data-driven FE techniques did not provide a consistent advantage over traditional FE methods.

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开发阻力训练动作自动评估系统。
在阻力训练(RT)运动的自主运动分析模型中,便携式数据采集设备和机器学习(ML)已被结合在一起。然而,这些模型的输入特征大多是根据经验提取的,随后的模型在真实世界环境中的可解释性和通用性有限。本研究旨在研究可解释和可推广的建模技术以及几种数据驱动的特征提取(FE)方法的实用性。为此,研究人员利用无标记运动捕捉技术为杠铃后蹲和举重建立了机器学习运动分析模型。61 名参与者进行了两个 RT 运动的次最大重复和最大重复。运动数据通过两个 Azure Kinect 摄像头采集。通过采集的深度成像计算关节和节段运动学变量,并使用传统的人工 FE 方法和新型数据驱动技术提取输入特征。针对两个动作的若干预定义技术偏差开发了分类器。其中许多技术偏差的分类准确率较高(≥70%),其余的分类准确率较低(55%-60%)。此外,数据驱动的有限元分析技术与以前的传统有限元分析方法不相上下。在某些分类任务中,利用可解释和可推广的建模技术可以取得良好效果,而数据驱动的有限元分析技术与传统的有限元分析方法相比并不具有一致的优势。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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