距离金本位有多远？比较局部位置测量（LPM）系统和 15 Hz GPS 与激光在测量团队运动中的加速度和跑步速度时的准确性。

How far from the gold standard? Comparing the accuracy of a Local Position Measurement (LPM) system and a 15 Hz GPS to a laser for measuring acceleration and running speed during team sports.

机构信息

Swiss Federal Institute of Sport Magglingen SFISM, Section for Elite Sport, Magglingen, Switzerland.

Department of Neurosciences and Movement Science, University of Fribourg, Fribourg, Switzerland.

出版信息

PLoS One. 2021 Apr 23;16(4):e0250549. doi: 10.1371/journal.pone.0250549. eCollection 2021.

DOI:10.1371/journal.pone.0250549

PMID:33891640

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8064559/

Abstract

PURPOSE

This study compared the validity and inter- and intra-unit reliability of local (LPM) and global (GPS) position measurement systems for measuring acceleration during team sports.

METHODS

Devices were attached to a remote-controlled car and validated against a laser. Mean percentage biases (MPBs) of maximal acceleration (amax) and maximal running speed (vmax) were used to measure validity. Mean between-device and mean within-device standard deviations of the percentage biases (bd-SDs and wd-SDs) of amax and vmax were used to measure inter- and intra-unit reliability, respectively.

RESULTS

Both systems tended to underestimate amax similarly (GPS: -61.8 to 3.5%; LPM: -53.9 to 9.6%). The MPBs of amax were lower in trials with unidirectional linear movements (GPS: -18.8 to 3.5%; LPM: -11.2 to 9.6%) than in trials with changes of direction (CODs; GPS: -61.8 to -21.1%; LPM: -53.9 to -35.3%). The MPBs of vmax (GPS: -3.3 to -1.0%; LPM: -12.4 to 1.5%) were lower than those of amax. The bd-SDs and the wd-SDs of amax were similar for both systems (bd-SDs: GPS: 2.8 to 12.0%; LPM 3.7 to 15.3%; wd-SDs: GPS: 3.7 to 28.4%; LPM: 5.3 to 27.2%), whereas GPS showed better bd-SDs of vmax than LPM.

CONCLUSION

The accuracy depended strongly on the type of action measured, with CODs displaying particularly poor validity, indicating a challenge for quantifying training loads in team sports.

摘要

目的

本研究比较了局部（LPM）和全局（GPS）位置测量系统在测量团队运动中加速度时的有效性和内-间单位可靠性。

方法

将设备连接到遥控车上，并与激光进行验证。最大加速度（amax）和最大跑步速度（vmax）的平均设备间偏差百分比（MPB）用于测量有效性。amax 和 vmax 的平均设备内偏差标准差（bd-SD）和平均设备内标准差（wd-SD）分别用于测量内-间和内-间单位可靠性。

结果

两种系统都倾向于以类似的方式低估 amax（GPS：-61.8 至 3.5%；LPM：-53.9 至 9.6%）。具有单向线性运动的试验中 amax 的 MPB 较低（GPS：-18.8 至 3.5%；LPM：-11.2 至 9.6%），而具有方向变化的试验中则较低（GPS：-61.8 至-21.1%；LPM：-53.9 至-35.3%）。vmax 的 MPB（GPS：-3.3 至-1.0%；LPM：-12.4 至 1.5%）低于 amax。两种系统的 amax 的 bd-SD 和 wd-SD 相似（bd-SD：GPS：2.8 至 12.0%；LPM：3.7 至 15.3%；wd-SD：GPS：3.7 至 28.4%；LPM：5.3 至 27.2%），而 GPS 显示出比 LPM 更好的 vmax 的 bd-SD。

结论

准确性强烈依赖于所测量的动作类型，具有方向变化的动作表现出特别差的有效性，表明在团队运动中量化训练负荷具有挑战性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0381/8064559/e2774b0cb1ea/pone.0250549.g001.jpg

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距离金本位有多远？比较局部位置测量（LPM）系统和 15 Hz GPS 与激光在测量团队运动中的加速度和跑步速度时的准确性。

How far from the gold standard? Comparing the accuracy of a Local Position Measurement (LPM) system and a 15 Hz GPS to a laser for measuring acceleration and running speed during team sports.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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