In-Field Recording of Six Biaxial Angles and Plantar Pressures in Weightlifting through a Wearable System.

IF 1.3 Q4 ENGINEERING, BIOMEDICAL Journal of Medical Signals & Sensors Pub Date : 2023-08-31 eCollection Date: 2023-10-01 DOI:10.4103/jmss.jmss_61_22

Miguel Fernando Cárdenas-Rodríguez, Cristhian Geovanny Paute-Tigre, Freddy Leonardo Bueno-Palomeque

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Abstract

Background: Monitoring and evaluation of the techniques used in weightlifting are based on the subjective observation of the coach, which can ignore important aspects of short duration. This study aimed to implement an embedded system to register the angular variation of the hip, knee, and ankle joints, and plantar pressure during training.

Methods: Four professional and four amateur athletes performed five snatch lifts. To evaluate the angular measurement, the tests were simultaneously videotaped and the results were contrasted.

Results: The angular data presented a correlation coefficient of 0.92 and a delay of 495 ± 200 ms. The characterization of the sensors was implemented in a microcontroller with a mean absolute percentage error of 18.8% in the measurements. When comparing the average results between the elite and amateur groups, the amateur group performed a delayed descent in the first three phases of the lift and an accelerated descent in the fourth phase. A not uniform plantar pressure was registered in the same group, causing a reduction in the final speed of recovery with the barbell.

Conclusions: The proposed system has been developed for biaxial angular registration of hip, knee, ankle, and plantar pressure during weightlifting snatch. The option to contrast between signals presented by the system met the requirements requested by the coaching staff and is seen as a promising quantitative analysis tool to support the coach and the athlete.

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通过可穿戴系统现场记录举重中的六个双轴角和足底压力。

背景：对举重技术的监测和评估是基于教练的主观观察，而忽略了短时间的重要方面。本研究旨在实现一个嵌入式系统，以记录训练过程中髋关节、膝关节和踝关节的角度变化以及足底压力。方法：四名专业运动员和四名业余运动员进行了五次抓举。为了评估角度测量，同时对测试进行录像并对结果进行对比。结果：角度数据的相关系数为0.92，延迟为495±200ms。传感器的特性在微控制器中实现，测量中的平均绝对百分比误差为18.8%。当比较精英组和业余组的平均成绩时，业余组在升力的前三个阶段进行了延迟下降，在第四阶段进行了加速下降。在同一组中，足底压力不均匀，导致杠铃的最终恢复速度降低。结论：所提出的系统已开发用于举重抓举过程中髋、膝、踝和足底压力的双轴角度配准。该系统提供的信号对比选项符合教练组的要求，被视为支持教练和运动员的一种很有前途的定量分析工具。

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 of Medical Signals & Sensors ENGINEERING, BIOMEDICAL-

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

33 weeks

期刊介绍： JMSS is an interdisciplinary journal that incorporates all aspects of the biomedical engineering including bioelectrics, bioinformatics, medical physics, health technology assessment, etc. Subject areas covered by the journal include: - Bioelectric: Bioinstruments Biosensors Modeling Biomedical signal processing Medical image analysis and processing Medical imaging devices Control of biological systems Neuromuscular systems Cognitive sciences Telemedicine Robotic Medical ultrasonography Bioelectromagnetics Electrophysiology Cell tracking - Bioinformatics and medical informatics: Analysis of biological data Data mining Stochastic modeling Computational genomics Artificial intelligence & fuzzy Applications Medical softwares Bioalgorithms Electronic health - Biophysics and medical physics: Computed tomography Radiation therapy Laser therapy - Education in biomedical engineering - Health technology assessment - Standard in biomedical engineering.