利用机器学习算法进行探索性分析,通过人体测量和社会人口特征预测捏合强度。

IF 1.6 4区 医学 Q3 ERGONOMICS
Sajjad Rostamzadeh, Alireza Abouhossein, Khurshid Alam, Shahram Vosoughi, Seyedeh Sousan Sattari
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引用次数: 0

摘要

研究目的本研究探讨了不同机器学习(ML)算法的作用,以确定哪些社会人口因素和手前臂人体测量尺寸可用于准确预测手部功能。研究方法这项横断面研究的对象是 7119 名健康的伊朗人(男性 3525 人,女性 3594 人),年龄在 10-89 岁之间。使用 JEGS 数字卡尺和卷尺测量了 17 个手部和手臂的人体测量尺寸。使用校准过的夹钳测量了顶端到顶端、钥匙和三爪卡盘的夹力。随后,21 个与社会人口因素和手前臂人体测量尺寸相关的特征被用于分类。此外,还对 12 个著名的分类器进行了实施和评估,以预测捏合情况。结果在本研究考虑的 21 个特征中,手长、身材、年龄、拇指长度和食指长度被认为是预测三种夹伤的最相关和最有效的组成部分。K 近邻、自适应提升(AdaBoost)和随机森林分类器预测三种夹伤的分类准确率最高,分别为 96.75%、86.49% 和 84.66%。结论利用 ML 预测捏合强度并确定预测性手前臂人体测量学和社会人口学特征,可为设计增强型工具手柄和减少常见的手部肌肉骨骼疾病铺平道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploratory analysis using machine learning algorithms to predict pinch strength by anthropometric and socio-demographic features.

Objectives. This study examines the role of different machine learning (ML) algorithms to determine which socio-demographic factors and hand-forearm anthropometric dimensions can be used to accurately predict hand function. Methods. The cross-sectional study was conducted with 7119 healthy Iranian participants (3525 males and 3594 females) aged 10-89 years. Seventeen hand-forearm anthropometric dimensions were measured by JEGS digital caliper and a measuring tape. Tip-to-tip, key and three-jaw chuck pinches were measured using a calibrated pinch gauge. Subsequently, 21 features pertinent to socio-demographic factors and hand-forearm anthropometric dimensions were used for classification. Furthermore, 12 well-known classifiers were implemented and evaluated to predict pinches. Results. Among the 21 features considered in this study, hand length, stature, age, thumb length and index finger length were found to be the most relevant and effective components for each of the three pinch predictions. The k-nearest neighbor, adaptive boosting (AdaBoost) and random forest classifiers achieved the highest classification accuracy of 96.75, 86.49 and 84.66% to predict three pinches, respectively. Conclusions. Predicting pinch strength and determining the predictive hand-forearm anthropometric and socio-demographic characteristics using ML may pave the way to designing an enhanced tool handle and reduce common musculoskeletal disorders of the hand.

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来源期刊
CiteScore
4.80
自引率
8.30%
发文量
152
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