眼睛和头部运动在视觉选择中相互补充。

Eye and head movements are complementary in visual selection.

作者信息

Solman Grayden J F, Foulsham Tom, Kingstone Alan

机构信息

University of Hawai'i at Mānoa , 2530 Dole Street, Sakamaki D401, Honolulu, HI 96822-2294 , USA.

University of Essex , Colchester, Essex , UK.

出版信息

R Soc Open Sci. 2017 Jan 18;4(1):160569. doi: 10.1098/rsos.160569. eCollection 2017 Jan.

DOI:10.1098/rsos.160569

PMID:28280554

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5319320/

Abstract

In the natural environment, visual selection is accomplished by a system of nested effectors, moving the head and body within space and the eyes within the visual field. However, it is not yet known if the principles of selection for these different effectors are the same or different. We used a novel gaze-contingent display in which an asymmetric window of visibility (a horizontal or vertical slot) was yoked to either head or eye position. Participants showed highly systematic changes in behaviour, revealing clear differences in the principles underlying selection by eye and head. Eye movements were more likely to move in the direction of visible information-horizontally when viewing with a horizontal slot, and vertically with a vertical slot. Head movements showed the opposite and complementary pattern, moving to reveal new information (e.g. vertically with a horizontal slot and vice versa). These results are consistent with a nested system in which the head favours exploration of unknown regions, while the eye exploits what can be seen with finer-scale saccades.

摘要

在自然环境中，视觉选择是通过一个嵌套效应器系统来完成的，该系统可在空间中移动头部和身体，并在视野内移动眼睛。然而，目前尚不清楚这些不同效应器的选择原则是相同还是不同。我们使用了一种新颖的注视相关显示，其中一个不对称的可见窗口（水平或垂直狭缝）与头部或眼睛位置相关联。参与者的行为表现出高度系统性的变化，揭示了眼睛和头部选择背后原则的明显差异。当使用水平狭缝观看时，眼球运动更有可能朝着可见信息的方向水平移动；当使用垂直狭缝观看时，则垂直移动。头部运动表现出相反且互补的模式，即移动以揭示新信息（例如，使用水平狭缝时垂直移动，反之亦然）。这些结果与一个嵌套系统一致，在该系统中，头部倾向于探索未知区域，而眼睛则利用更精细的扫视来利用可见的信息。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3345/5319320/11b0c3a600c1/rsos160569-g1.jpg

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眼睛和头部运动在视觉选择中相互补充。

Eye and head movements are complementary in visual selection.

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