An Integrated Eye-Tracking and Motion Capture System in Synchronized Gaze and Movement Analysis.

Zhao-Yuan Wan, Yi-Xing Liu, Xiaochen Zhang, Ruoli Wang
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Abstract

Integrating mobile eye-tracking and motion capture emerges as a promising approach in studying visual-motor coordination, due to its capability of expressing gaze data within the same laboratory-centered coordinate system as body movement data. In this paper, we proposed an integrated eye-tracking and motion capture system, which can record and analyze temporally and spatially synchronized gaze and motion data during dynamic movement. The accuracy of gaze measurement were evaluated on five participants while they were instructed to view fixed vision targets at different distances while standing still or walking towards the targets. Similar accuracy could be achieved in both static and dynamic conditions. To demonstrate the usability of the integrated system, several walking tasks were performed in three different pathways. Results revealed that participants tended to focus their gaze on the upcoming path, especially on the downward path, possibly for better navigation and planning. In a more complex pathway, coupled with more gaze time on the pathway, participants were also found having the longest step time and shortest step length, which led to the lowest walking speed. It was believed that the integration of eye-tracking and motion capture is a feasible and promising methodology quantifying visual-motor coordination in locomotion.

一种用于同步注视和运动分析的集成眼睛跟踪和运动捕捉系统。
将移动眼睛跟踪和运动捕捉相结合是研究视觉运动协调的一种很有前途的方法,因为它能够在与身体运动数据相同的以实验室为中心的坐标系中表达凝视数据。在本文中,我们提出了一种集成的眼睛跟踪和运动捕捉系统,该系统可以记录和分析动态运动过程中时间和空间同步的凝视和运动数据。对五名参与者进行了凝视测量的准确性评估,同时指示他们在静止或朝着目标行走时观察不同距离的固定视觉目标。在静态和动态条件下都可以实现类似的精度。为了证明集成系统的可用性,在三条不同的路径上执行了几项步行任务。结果显示,参与者倾向于将目光集中在即将到来的路径上,尤其是向下的路径上。这可能是为了更好地导航和规划。在一条更复杂的路径中,再加上更多的凝视时间,参与者的步数时间最长,步长最短,这导致了最低的步行速度。人们认为,将眼动追踪和运动捕捉相结合是一种可行且有前景的量化运动中视觉运动协调的方法。
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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