Hogg Ruth Esther, Anderson Andrew John
Department of Optometry and Vision Science, University of Melbourne, Melbourne, Victoria, Australia.
Invest Ophthalmol Vis Sci. 2009 Mar;50(3):1477-82. doi: 10.1167/iovs.08-2866. Epub 2008 Nov 7.
It has been argued that the threshold for detecting frequency-doubling (FD) technology perimeter stimuli differs from the threshold for perceiving spatial structure (pattern) in the same targets. Thresholds for perceiving spatial structure have typically been assessed using orientation-identification experiments. The authors investigated the influence of orientation, edge profile, and psychophysical method on the origin of the reported differences in detection and orientation-identification thresholds for FD gratings.
Detection and orientation-identification thresholds were determined in 12 observers with the use of FD stimuli (0.25 cyc/deg, 25 Hz) presented centrally and at 15 degrees eccentricity. Edge profile (square- and Gaussian-windowed) and orientation (horizontal, vertical, and oblique) were independently modified. Detection thresholds were also measured for spatially uniform flickering targets (25 Hz). Orientation-identification thresholds using a two-alternative forced choice (2-AFC) and a two-interval forced choice (2-IFC) method were also compared in five experienced observers.
Orientation-identification and detection thresholds did not significantly differ under any condition tested. Orientation-identification thresholds obtained with 2-AFC were not significantly different from those obtained with 2-IFC. Thresholds for spatially uniform flicker were significantly lower than for FD stimuli.
The authors found that orientation-identification and detection thresholds for FD gratings did not differ and argue that recent findings to the contrary arise from the inappropriate use of spatially uniform flicker targets as alternatives in 2-IFC experiments.
有人认为,检测频率加倍(FD)技术周边刺激的阈值与感知相同目标的空间结构(图案)的阈值不同。感知空间结构的阈值通常使用方向识别实验进行评估。作者研究了方向、边缘轮廓和心理物理学方法对FD光栅检测阈值和方向识别阈值差异来源的影响。
使用中央呈现和15度偏心呈现的FD刺激(0.25周/度,25赫兹),在12名观察者中确定检测阈值和方向识别阈值。边缘轮廓(方形和高斯窗口)和方向(水平、垂直和倾斜)被独立改变。还测量了空间均匀闪烁目标(25赫兹)的检测阈值。在五名有经验的观察者中,还比较了使用二选一强制选择(2-AFC)和二间隔强制选择(2-IFC)方法的方向识别阈值。
在任何测试条件下,方向识别阈值和检测阈值均无显著差异。2-AFC获得的方向识别阈值与2-IFC获得的阈值无显著差异。空间均匀闪烁的阈值显著低于FD刺激的阈值。
作者发现FD光栅的方向识别阈值和检测阈值没有差异,并认为最近相反的发现源于在2-IFC实验中不恰当地使用空间均匀闪烁目标作为替代物。
