Accuracy and Reliability of Inertial Devices for Load Assessment During Flywheel Workout

IF 0.6 Q4 SPORT SCIENCES

MHSalud-Revista en Ciencias del Movimiento Humano y la Salud Pub Date : 2021-11-24 DOI:10.15359/mhs.19-1.1

J. Pino-Ortega, Alejandro Hernández-Belmonte, A. Bastida-Castillo, C. Gómez-Carmona, Daniel Rojas-Valverde

引用次数: 0

Abstract

There is currently an increase in inertial flywheel application in strength training; thus, it must be monitored by an accurate and reliable device. The present study tested: (1) the accuracy of an inertial measurement device (IMU) to correctly measure angular velocity and (2) its inter-unit reliability for the measurement of external load. The analysis was performed using Pearson Correlation and Intraclass Correlation Coefficient (ICC). The IMU accuracy was tested using Bland-Altman and the reliability with the coefficient of variation (CV). Ten elite-level football players performed ten series of 5 repetitions in a one-hand standing row exercise (5 series with each arm). A nearly perfect accuracy (ICC=.999) and a very good between-device reliability (Bias=-.010; CV=.017%) was found. IMU is a reliable and valid device to assess angular velocity in inertial flywheel workout objectively.

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飞轮试验中惯性装置载荷评估的准确性和可靠性

目前惯性飞轮在力量训练中的应用有所增加;因此，它必须由一个准确和可靠的设备进行监测。本研究测试:(1)惯性测量装置(IMU)正确测量角速度的精度;(2)其测量外载荷的单元间可靠性。采用Pearson相关和类内相关系数(Intraclass Correlation Coefficient, ICC)进行分析。采用Bland-Altman法和变异系数(CV)法分别对IMU的精度和信度进行检验。10名精英水平的足球运动员在单手站立行练习中做了10个系列，每组5次重复(每只手臂5个系列)。近乎完美的精度(ICC=.999)和非常好的设备间可靠性(Bias=- 0.010;CV= 0.017%)。IMU是一种可靠有效的测量惯性飞轮运动角速度的客观方法。

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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