Estimating ski orientation using IMUs in alpine skiing

Current Issues in Sport Science (CISS) Pub Date : 2024-05-02 DOI:10.36950/2024.3ciss004

Chris Hummel, Andreas Huber, Peter Spitzenpfeil

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Abstract

Ski-snow interaction is the essential component of alpine skiing. To understand how a skier manipulates his ski to turn, we need to develop methods to measure the orientation of the ski throughout a complete run. Recent studies tried to use IMUs to estimate edge angle (EA) during skiing. We introduce and validate a method on how to calibrate and employ IMUs to precisely and accurately measure roll angles (RA) as a matter of changing orientation of the ski around its longitudinal axis in 3D space during skiing. Static orientation measurements on an inclined plane perfectly correlate (r2 = 1) with 3D motion capturing: RMSE = 0.18° and 0.24° respectively. Bland Altman showed a mean bias of 0.23° (95% CI: -0.16°, 0.63°) and 0.21° (95% CI: -0.3°, 0.73°). Accuracy and drift tests against constant standardised rotational velocities showed no drift behaviour over time, but RA estimation accuracy is reduced with increasing angular velocities (SD @ ±300°/s: 0.57°, max. difference from average at ±300°/s: 2.7°). During skiing on a ski ergometer the comparison of maximum RA against Vicon showed a mean bias of 0.13° (95% CI: -0.86° to 1.1°). Even though ski ergometer skiing has a similar frequency and angular velocity profile like outdoor skiing, there are more rotational degrees of freedom in outdoor skiing. The foundation is provided in this paper. To understand how a skier manipulates the ski on snow and to understand RA and EA progression during a turn in detail, further research should validate the method in the field and additionally look into RA progression within individual turns.

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在高山滑雪中使用 IMUs 估算滑雪板方向

滑雪板与雪的相互作用是高山滑雪的重要组成部分。为了了解滑雪者如何操纵滑雪板转弯，我们需要开发出测量滑雪板在整个滑行过程中方向的方法。我们介绍并验证了如何校准和使用 IMU 来精确测量滚动角（RA）的方法，这是滑雪过程中滑雪板围绕其纵轴在三维空间中改变方向的问题：RMSE = 0.18°和 0.24°。Bland Altman 显示平均偏差为 0.23°（95% CI：-0.16°, 0.63°）和 0.21°（95% CI：-0.3°, 0.73°）。针对恒定标准化旋转速度进行的精度和漂移测试表明，随着时间的推移没有漂移行为，但 RA 估计精度会随着角速度的增加而降低（±300°/秒时的 SD：0.57°，±300°/秒时与平均值的最大差异：2.7°）。在滑雪测力计上滑雪时，最大 RA 与 Vicon 的比较显示平均偏差为 0.13°（95% CI：-0.86° 至 1.1°）。本文提供了相关基础。要想了解滑雪者如何在雪地上操控滑雪板，并详细了解转弯过程中的 RA 和 EA 进展，进一步的研究应在现场对该方法进行验证，并对单个转弯过程中的 RA 进展进行研究。

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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Current Issues in Sport Science (CISS)

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