Foothold selection during locomotion in uneven terrain: Results from the integration of eye tracking, motion capture, and photogrammetry.

bioRxiv : the preprint server for biology Pub Date : 2024-07-21 DOI:10.1101/2023.08.18.553818

Karl S Muller, Dan Panfili, Stephanie Shields, Jonathan S Matthis, Kathryn Bonnen, Mary M Hayhoe

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Abstract

Relatively little is known about the way vision is used to guide locomotion in the natural world. What visual features are used to choose paths in natural complex terrain? To answer this question, we measured eye and body movements while participants walked in natural outdoor environments. We incorporated measurements of the 3D terrain structure into our analyses and reconstructed the terrain along the walker's path, applying photogrammetry techniques to the eyetracker's scene camera videos. Combining these reconstructions with the walker's body movements, we demonstrate that walkers take terrain structure into account when selecting paths through an environment. We find that they change direction to avoid taking steeper steps that involve large height changes, instead of choosing more circuitous, relatively flat paths. Our data suggest walkers plan the location of individual footholds and plan ahead to select flatter paths. These results provide evidence that locomotor behavior in natural environments is controlled by decision mechanisms that account for multiple factors, including sensory and motor information, costs, and path planning.

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在不平坦地形上运动时的立足点选择：眼动跟踪、运动捕捉和摄影测量的综合结果。

人们对自然界中利用视觉引导运动的方式知之甚少。在复杂的自然地形中，哪些视觉特征用于选择路径？为了回答这个问题，我们测量了参与者在户外自然环境中行走时眼睛和身体的运动。我们将三维地形结构的测量结果纳入分析，并对眼动仪的场景相机视频应用摄影测量技术，重建了步行者路径上的地形。将这些重建与步行者的身体运动相结合，我们证明步行者在选择穿越环境的路径时会考虑地形结构。我们发现，步行者会改变方向，避免走高度变化大的陡峭台阶，而不是选择更迂回、相对平坦的路径。我们的数据表明，步行者会规划单个支点的位置，并提前规划以选择更平坦的路径。这些结果证明，自然环境中的运动行为是由决策机制控制的，决策机制考虑了多种因素，包括感觉和运动信息、成本和路径规划。

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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