The Riemannian Geometry Theory of Visually-Guided Movement Accounts for Afterimage Illusions and Size Constancy.

Q2 Medicine Vision (Switzerland) Pub Date : 2022-06-20 DOI:10.3390/vision6020037
Peter D Neilson, Megan D Neilson, Robin T Bye
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Abstract

This discussion paper supplements our two theoretical contributions previously published in this journal on the geometric nature of visual space. We first show here how our Riemannian formulation explains the recent experimental finding (published in this special issue on size constancy) that, contrary to conclusions from past work, vergence does not affect perceived size. We then turn to afterimage experiments connected to that work. Beginning with the Taylor illusion, we explore how our proposed Riemannian visual-somatosensory-hippocampal association memory network accounts in the following way for perceptions that occur when afterimages are viewed in conjunction with body movement. The Riemannian metric incorporated in the association memory network accurately emulates the warping of 3D visual space that is intrinsically introduced by the eye. The network thus accurately anticipates the change in size of retinal images of objects with a change in Euclidean distance between the egocentre and the object. An object will only be perceived to change in size when there is a difference between the actual size of its image on the retina and the anticipated size of that image provided by the network. This provides a central mechanism for size constancy. If the retinal image is the afterimage of a body part, typically a hand, and that hand moves relative to the egocentre, the afterimage remains constant but the proprioceptive signals change to give the new hand position. When the network gives the anticipated size of the hand at its new position this no longer matches the fixed afterimage, hence a size-change illusion occurs.

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视觉引导运动的黎曼几何理论解释了后像幻觉和尺寸常数。
这篇讨论论文补充了我们之前在该杂志上发表的关于视觉空间几何性质的两项理论贡献。我们首先在这里展示我们的黎曼公式如何解释最近的实验发现(发表在这期关于尺寸常数的特刊上),与过去工作的结论相反,收敛不影响感知尺寸。然后我们转向与该工作相关的后像实验。从泰勒错觉开始,我们探索我们提出的黎曼视觉-体感-海马体关联记忆网络如何以以下方式解释当后像与身体运动一起被观看时发生的感知。在关联记忆网络中引入的黎曼度量精确地模拟了由眼睛引入的三维视觉空间的翘曲。因此,随着自我中心与物体之间欧几里得距离的变化,该网络可以准确地预测物体视网膜图像的大小变化。只有当物体在视网膜上的实际图像大小与网络提供的该图像的预期大小之间存在差异时,物体才会被感知到大小的变化。这为大小恒定提供了一个中心机制。如果视网膜图像是身体某个部位的后像,通常是一只手,而那只手相对于自我中心运动,后像保持不变,但本体感觉信号会改变,给出新的手的位置。当神经网络给出手在新位置的预期尺寸时,它不再与固定的后像匹配,因此产生了尺寸变化错觉。
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来源期刊
Vision (Switzerland)
Vision (Switzerland) Health Professions-Optometry
CiteScore
2.30
自引率
0.00%
发文量
62
审稿时长
11 weeks
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