MacKay D M
Nature. 1980 Mar 20;284(5753):257. doi: 10.1038/284257a0.
It has long been known that the temporal characteristics of human peripheral vision differ markedly from those of foveal vision. Slowly moving peripheral stimuli, for example, can give rise to dramatically exaggerated estimates of their displacement. More recently, Thorson et al. have shown that where two spots are flashed in sequence to peripheral vision with an interflash interval of 50 ms, a sensation of movement can be induced even when the spatial separation of the spots is below the static acuity threshold. These observations fit with several others, suggesting that the visual system uses separate channels for signalling 'motion' as distinct from 'change of location', and that in some circumstances the integration of motion signals may make a dominant contribution to the perception of displacement. I now report a striking illusion which seems to reinforce and extend this conclusion.
长期以来,人们都知道人类周边视觉的时间特性与中央凹视觉的时间特性明显不同。例如,缓慢移动的周边刺激会导致对其位移的估计大幅夸大。最近,索尔森等人表明,当两个光点以50毫秒的闪光间隔依次闪现在周边视觉中时,即使光点的空间间隔低于静态视力阈值,也能诱发运动感觉。这些观察结果与其他一些观察结果相符,表明视觉系统使用不同的通道来传递“运动”信号,与“位置变化”信号不同,并且在某些情况下,运动信号的整合可能对位移感知起主要作用。我现在报告一个惊人的错觉,它似乎强化并扩展了这一结论。