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基于运动视差的视觉深度感知的运动/追踪定律。

The motion/pursuit law for visual depth perception from motion parallax.

作者信息

Nawrot Mark, Stroyan Keith

机构信息

Center for Visual Neuroscience, Department of Psychology, North Dakota State University, Fargo, ND 58104, USA.

出版信息

Vision Res. 2009 Jul;49(15):1969-78. doi: 10.1016/j.visres.2009.05.008. Epub 2009 May 20.

DOI:10.1016/j.visres.2009.05.008
PMID:19463848
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2735858/
Abstract

One of vision's most important functions is specification of the layout of objects in the 3D world. While the static optical geometry of retinal disparity explains the perception of depth from binocular stereopsis, we propose a new formula to link the pertinent dynamic geometry to the computation of depth from motion parallax. Mathematically, the ratio of retinal image motion (motion) and smooth pursuit of the eye (pursuit) provides the necessary information for the computation of relative depth from motion parallax. We show that this could have been obtained with the approaches of Nakayama and Loomis [Nakayama, K., & Loomis, J. M. (1974). Optical velocity patterns, velocity-sensitive neurons, and space perception: A hypothesis. Perception, 3, 63-80] or Longuet-Higgens and Prazdny [Longuet-Higgens, H. C., & Prazdny, K. (1980). The interpretation of a moving retinal image. Proceedings of the Royal Society of London Series B, 208, 385-397] by adding pursuit to their treatments. Results of a psychophysical experiment show that changes in the motion/pursuit ratio have a much better relationship to changes in the perception of depth from motion parallax than do changes in motion or pursuit alone. The theoretical framework provided by the motion/pursuit law provides the quantitative foundation necessary to study this fundamental visual depth perception ability.

摘要

视觉最重要的功能之一是确定三维世界中物体的布局。虽然视网膜视差的静态光学几何原理解释了双眼立体视觉中的深度感知,但我们提出了一个新公式,将相关的动态几何与运动视差引起的深度计算联系起来。从数学角度来看,视网膜图像运动(运动)与眼睛平稳跟踪(跟踪)的比率为通过运动视差计算相对深度提供了必要信息。我们表明,这可以通过中山和卢米斯[中山,K.,&卢米斯,J. M.(1974年)。光速度模式、速度敏感神经元和空间感知:一个假设。《感知》,3,63 - 80]或朗格特 - 希金斯和普拉兹德尼[朗格特 - 希金斯,H. C.,&普拉兹德尼,K.(1980年)。移动视网膜图像的解释。《伦敦皇家学会学报B辑》,208,385 - 397]的方法,在他们的处理中加入跟踪来获得。一项心理物理学实验的结果表明,运动/跟踪比率的变化与运动视差引起的深度感知变化之间的关系,比单独的运动或跟踪变化要好得多。运动/跟踪定律提供的理论框架为研究这种基本的视觉深度感知能力提供了必要的定量基础。

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