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头戴式惯性传感器可用于监测游泳吗?

Is a Head-Worn Inertial Sensor a Valid Tool to Monitor Swimming?

出版信息

Int J Sports Physiol Perform. 2021 Dec 1;16(12):1901-1904. doi: 10.1123/ijspp.2020-0887. Epub 2021 May 21.

DOI:10.1123/ijspp.2020-0887
PMID:34021091
Abstract

PURPOSE

This study aimed to independently validate a wearable inertial sensor designed to monitor training and performance metrics in swimmers.

METHODS

A total of 4 male (21 [4] y, 1 national and 3 international) and 6 female (22 [3] y, 1 national and 5 international) swimmers completed 15 training sessions in an outdoor 50-m pool. Swimmers were fitted with a wearable device (TritonWear, 9-axis inertial measurement unit with triaxial accelerometer, gyroscope, and magnetometer), placed under the swim cap on top of the occipital protuberance. Video footage was captured for each session to establish criterion values. Absolute error, standardized effect, and Pearson correlation coefficient were used to determine the validity of the wearable device against video footage for total swim distance, total stroke count, mean stroke count, and mean velocity. A Fisher exact test was used to analyze the accuracy of stroke-type identification.

RESULTS

Total swim distance was underestimated by the device relative to video analysis. Absolute error was consistently higher for total and mean stroke count, and mean velocity, relative to video analysis. Across all sessions, the device incorrectly detected total time spent in backstroke, breaststroke, butterfly, and freestyle by 51% (15%). The device did not detect time spent in drill. Intraclass correlation coefficient results demonstrated excellent intrarater reliability between repeated measures across all swimming metrics.

CONCLUSIONS

The wearable device investigated in this study does not accurately measure distance, stroke count, and velocity swimming metrics or detect stroke type. Its use as a training monitoring tool in swimming is limited.

摘要

目的

本研究旨在独立验证一款可用于监测游泳者训练和表现指标的可穿戴惯性传感器。

方法

共有 4 名男性(21[4]岁,1 名国家级运动员和 3 名国际级运动员)和 6 名女性(22[3]岁,1 名国家级运动员和 5 名国际级运动员)在户外 50 米游泳池中完成了 15 次训练。游泳者佩戴了一个可穿戴设备(TritonWear,带有三轴加速度计、陀螺仪和磁力计的 9 轴惯性测量单元),将其放在泳帽下的枕骨隆突上方。为每个训练 session 拍摄视频以建立标准值。使用绝对误差、标准化效应和 Pearson 相关系数来确定可穿戴设备相对于视频数据在总游泳距离、总划数、平均划数和平均速度方面的有效性。Fisher 精确检验用于分析划型识别的准确性。

结果

与视频分析相比,设备低估了总游泳距离。与视频分析相比,总划数和平均划数以及平均速度的绝对误差始终更高。在所有 session 中,设备错误地检测到了 51%(15%)的仰泳、蛙泳、蝶泳和自由泳的总时间。设备没有检测到练习时间。所有游泳指标的组内相关系数结果均显示了重复性测量之间的极好的内部信度。

结论

本研究中研究的可穿戴设备无法准确测量距离、划数和速度等游泳指标,也无法检测划型。其在游泳训练监测工具中的应用受到限制。

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