能见度窗口如何随极角变化。

IF 2 4区 心理学 Q2 OPHTHALMOLOGY
Yuna Kwak, Zhong-Lin Lu, Marisa Carrasco
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引用次数: 0

摘要

对比敏感度是指辨别物体所需的对比度,它取决于空间频率(SF)。对比敏感度函数(CSF)在中等空间频率时达到峰值,在其他空间频率时下降。从眼窝到周边视觉,CSF 都会发生变化,但只有几项研究评估了 CSF 随视野极角的变化而变化的情况。对于许多视觉维度而言,水平经线上的灵敏度要优于垂直经线上的灵敏度,垂直经线下端的灵敏度要优于垂直经线上端的灵敏度,这就产生了极角的不对称性。据我们所知,我们在这里首次从群体和个体两个层面研究了极角周围的 CSF 属性,并考察了 CSF 在不同位置和观察者个体之间的关系。为此,我们采用了分层贝叶斯模型,从而能够精确地估计 CSF 参数。在群体水平上,最大对比敏感度和敏感度峰值的 SF 在水平子午线上高于垂直子午线,在垂直子午线的下方高于上方。通过分析不同观察者(n = 28)的协方差,我们发现在个体水平上,不同位置的 CSF 属性(如最大灵敏度)高度相关。这种相关性表明,尽管不同地点的 CSF 不同,但一个地点的 CSF 可以预测另一个地点的 CSF。在每个位置内,CSF 属性共变,表明不同个体的 CSF 以一致的方式变化(例如,随着最大灵敏度的增加,相应的 SF 也随之增加),但在水平经线位置比垂直经线位置更明显。这些结果显示了不同位置和个体之间的相似性,同时也发现了一些关键的极角差异,这表明 CSF 不应该在视野周围的等中心位置通用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
How the window of visibility varies around polar angle.

Contrast sensitivity, the amount of contrast required to discriminate an object, depends on spatial frequency (SF). The contrast sensitivity function (CSF) peaks at intermediate SFs and drops at other SFs. The CSF varies from foveal to peripheral vision, but only a couple of studies have assessed how the CSF changes with polar angle of the visual field. For many visual dimensions, sensitivity is better along the horizontal than the vertical meridian and at the lower than the upper vertical meridian, yielding polar angle asymmetries. Here, for the first time, to our knowledge, we investigate CSF attributes around polar angle at both group and individual levels and examine the relations in CSFs across locations and individual observers. To do so, we used hierarchical Bayesian modeling, which enables precise estimation of CSF parameters. At the group level, maximum contrast sensitivity and the SF at which the sensitivity peaks are higher at the horizontal than vertical meridian and at the lower than the upper vertical meridian. By analyzing the covariance across observers (n = 28), we found that, at the individual level, CSF attributes (e.g., maximum sensitivity) across locations are highly correlated. This correlation indicates that, although the CSFs differ across locations, the CSF at one location is predictive of that at another location. Within each location, the CSF attributes covary, indicating that CSFs across individuals vary in a consistent manner (e.g., as maximum sensitivity increases, so does the corresponding SF), but more so at the horizontal than the vertical meridian locations. These results show similarities and uncover some critical polar angle differences across locations and individuals, suggesting that the CSF should not be generalized across isoeccentric locations around the visual field.

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来源期刊
Journal of Vision
Journal of Vision 医学-眼科学
CiteScore
2.90
自引率
5.60%
发文量
218
审稿时长
3-6 weeks
期刊介绍: Exploring all aspects of biological visual function, including spatial vision, perception, low vision, color vision and more, spanning the fields of neuroscience, psychology and psychophysics.
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