视力严重退化时空间更新能力仍保持完好。

Intact spatial updating with severely degraded vision.

作者信息

Tarampi Margaret R, Creem-Regehr Sarah H, Thompson William B

机构信息

Department of Psychology, University of Utah, 380 S. 1530 E., Room502, Salt Lake City, UT 84112, USA.

出版信息

Atten Percept Psychophys. 2010 Jan;72(1):23-7. doi: 10.3758/APP.72.1.23.

DOI:10.3758/APP.72.1.23

PMID:20045877

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2841558/

Abstract

Critical to low-vision navigation are the abilities to recover scale and update a 3-D representation of space. In order to investigate whether these abilities are present under low-vision conditions, we employed the triangulation task of eyes-closed indirect walking to previously viewed targets on the ground. This task requires that the observer continually update the location of the target without any further visual feedback of his/her movement or the target's location. Normally sighted participants were tested monocularly in a degraded vision condition and a normal vision condition on both indirect and direct walking to previously viewed targets. Surprisingly, we found no difference in walked distances between the degraded and normal vision conditions. Our results provide evidence for intact spatial updating even under severely degraded vision conditions, indicating that participants can recover scale and update a 3-D representation of space under simulated low vision.

摘要

对于低视力导航至关重要的是恢复比例和更新空间三维表示的能力。为了研究在低视力条件下是否具备这些能力，我们采用了闭眼间接走向地面上先前看到的目标的三角测量任务。该任务要求观察者在没有关于其自身运动或目标位置的任何进一步视觉反馈的情况下持续更新目标的位置。正常视力的参与者在退化视力条件和正常视力条件下，分别针对间接和直接走向先前看到的目标进行了单眼测试。令人惊讶的是，我们发现在退化视力条件和正常视力条件下行走的距离没有差异。我们的结果为即使在严重退化的视力条件下空间更新仍保持完整提供了证据，表明参与者在模拟低视力情况下能够恢复比例并更新空间的三维表示。

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