NBA篮球损伤预测的深度学习方法

Pub Date : 2021-07-24 DOI:10.3233/jsa-200529
Alexander Cohan, J. Schuster, José Fernández
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引用次数: 3

摘要

预测运动员受伤风险一直是运动医学领域的圣杯,但由于样本量小、数据明显不平衡以及统计方法不充分等各种因素,迄今为止进展甚微。如果数据建模没有考虑到多个因素之间的相互作用,可能会产生误导。我们利用公开的数据来源收集NBA球员伤病的纵向数据,并开发了一个最先进的深度学习模型——METIC,来根据过去的伤病、比赛活动和球员统计数据来预测未来的伤病,从而解决了小样本的问题。我们使用适合不平衡数据的度量来评估模型性能,并发现METIC的性能明显优于其他传统的机器学习方法。METIC使用特征学习来创建交互特征,这些特征在相互组合时变得有意义。从业人员和管理层可以使用METIC来改善运动员管理,减少受伤发生率,由于运动员受伤的减少,可能为运动队节省数百万美元的收入。
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A deep learning approach to injury forecasting in NBA basketball
Predicting athlete injury risk has been a holy grail in sports medicine with little progress to date due to a variety of factors such as small sample sizes, significantly imbalanced data, and inadequate statistical approaches. Data modeling which does not account for multiple interactions across factors can be misleading. We address the small sample size by collecting longitudinal data of NBA player injuries using publicly available data sources and develop a state of the art deep learning model, METIC, to predict future injuries based on past injuries, game activity, and player statistics. We evaluate model performance using metrics appropriate for imbalanced data and find that METIC performs significantly better than other traditional machine learning approaches. METIC uses feature learning to create interactive features which become meaningful in combination with each other. METIC can be used by practitioners and front offices to improve athlete management and reduce injury incidence, potentially saving sports teams millions in revenue due to reduced athlete injuries.
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