A Data Mining Approach to Predict Non-Contact Injuries in Young Soccer Players

Q2 Computer Science

International Journal of Computer Science in Sport Pub Date : 2021-11-28 DOI:10.2478/ijcss-2021-0009

M. Mandorino, A. Figueiredo, Gianluca Cima, A. Tessitore

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引用次数: 11

Abstract

Abstract Predicting and avoiding an injury is a challenging task. By exploiting data mining techniques, this paper aims to identify existing relationships between modifiable and non-modifiable risk factors, with the final goal of predicting non-contact injuries. Twenty-three young soccer players were monitored during an entire season, with a total of fifty-seven non-contact injuries identified. Anthropometric data were collected, and the maturity offset was calculated for each player. To quantify internal training/match load and recovery status of the players, we daily employed the session-RPE method and the total quality recovery (TQR) scale. Cumulative workloads and the acute: chronic workload ratio (ACWR) were calculated. To explore the relationship between the various risk factors and the onset of non-contact injuries, we performed a classification tree analysis. The classification tree model exhibited an acceptable discrimination (AUC=0.76), after receiver operating characteristic curve (ROC) analysis. A low state of recovery, a rapid increase in the training load, cumulative workload, and maturity offset were recognized by the data mining algorithm as the most important injury risk factors.

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预测青少年足球运动员非接触性损伤的数据挖掘方法

摘要预测和避免受伤是一项具有挑战性的任务。通过利用数据挖掘技术，本文旨在识别可修改和不可修改风险因素之间的现有关系，最终目标是预测非接触性损伤。在整个赛季中，23名年轻足球运动员接受了监测，共发现57起非接触性损伤。收集了人体测量数据，并计算了每个玩家的成熟度偏移量。为了量化球员的内部训练/比赛负荷和恢复状态，我们每天使用会话RPE方法和总质量恢复量表。计算累计工作量和急慢性工作量比率（ACWR）。为了探讨各种危险因素与非接触性损伤发病之间的关系，我们进行了分类树分析。在受试者操作特征曲线（ROC）分析后，分类树模型表现出可接受的区分（AUC=0.76）。数据挖掘算法认为，恢复状态低、训练负荷快速增加、累积工作量和成熟度偏移是最重要的损伤风险因素。

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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