Exploring Upper Limb Kinematics in Limited Vision Conditions: Preliminary Insights from 3D Motion Analysis and IMU Data

IgMin Research Pub Date : 2024-01-18 DOI:10.61927/igmin138

Artemis Zarkadoula, Tsatalas Themistoklis, Bellis George, Papaggelos Paris, Vlahogianni Evangelia, Moustos Stefanos, Koukourava Eirini, Tsaopoulos Dimitrios, Giakas Giannis

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Abstract

This study examined upper limb kinematics under simulated visually impaired conditions. By investigating how upper limb movements adapt in these circumstances, we aimed to gain insights that may prove valuable for both healthy populations and those with clinical conditions. Data, including 3D marker-based motion capture and accelerometer readings, were collected from seven healthy volunteers walking on a treadmill at 1.5 m/s under two conditions: without glasses (NG) and with stroboscopic glasses (G). Each walking condition lasted 2 minutes, and two 10-second recordings were analyzed from the midpoint of each session. Contrary to our hypothesis, simulated visual impairment with stroboscopic eyewear at 6Hz did not statistically affect upper limb kinematics, specifically in terms of wrist acceleration and hand distance in the frontal plane. Future research should explore varied visual impairment conditions, extend task durations, and investigate the relationship between subjective gait difficulties and biomechanical data.

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探索视觉受限条件下的上肢运动学：来自三维运动分析和 IMU 数据的初步见解

本研究考察了在模拟视力受损情况下的上肢运动学。通过研究上肢运动在这些情况下的适应性，我们旨在获得对健康人群和临床疾病患者都有价值的见解。我们收集了七名健康志愿者在跑步机上以 1.5 米/秒的速度行走时的数据，包括基于三维标记的运动捕捉和加速计读数。每种行走状态持续 2 分钟，对每次行走的中点进行两次 10 秒钟的记录分析。与我们的假设相反，戴 6Hz 频闪眼镜的模拟视力障碍并没有对上肢运动学产生统计学影响，特别是在腕部加速度和手在前方平面的距离方面。未来的研究应探索不同的视觉障碍条件，延长任务持续时间，并调查主观步态困难与生物力学数据之间的关系。

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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