Dufour Andre, Touzalin Pascale, Moessinger Michèle, Brochard Renaud, Després Olivier
Laboratoire d'Imagerie et de Neurosciences Cognitives-UMR 7191 ULP-CNRS, 21 rue Becquerel, 67087 Strasbourg Cedex, France.
Conscious Cogn. 2008 Sep;17(3):790-7. doi: 10.1016/j.concog.2007.09.001. Epub 2007 Oct 30.
There is growing interest in the effect of sound on visual motion perception. One model involves the illusion created when two identical objects moving towards each other on a two-dimensional visual display can be seen to either bounce off or stream through each other. Previous studies show that the large bias normally seen toward the streaming percept can be modulated by the presentation of an auditory event at the moment of coincidence. However, no reports to date provide sufficient evidence to indicate whether the sound bounce-inducing effect is due to a perceptual binding process or merely to an explicit inference resulting from the transient auditory stimulus resembling a physical collision of two objects. In the present study, we used a novel experimental design in which a subliminal sound was presented either 150 ms before, at, or 150 ms after the moment of coincidence of two disks moving towards each other. The results showed that there was an increased perception of bouncing (rather than streaming) when the subliminal sound was presented at or 150 ms after the moment of coincidence compared to when no sound was presented. These findings provide the first empirical demonstration that activation of the human auditory system without reaching consciousness affects the perception of an ambiguous visual motion display.
声音对视觉运动感知的影响正受到越来越多的关注。一种模型涉及到当两个相同的物体在二维视觉显示器上相互靠近移动时所产生的错觉,人们可以看到它们要么相互反弹,要么相互穿过。先前的研究表明,通常朝向“穿过”感知的较大偏差可以通过在重合时刻呈现听觉事件来调节。然而,迄今为止,没有报告提供足够的证据表明声音诱发反弹的效果是由于感知绑定过程,还是仅仅是由类似于两个物体物理碰撞的瞬态听觉刺激导致的明确推理。在本研究中,我们采用了一种新颖的实验设计,在两个相互靠近的圆盘重合时刻之前150毫秒、重合时刻或重合时刻之后150毫秒呈现阈下声音。结果表明,与不呈现声音时相比,在重合时刻或重合时刻之后150毫秒呈现阈下声音时,对反弹(而非穿过)的感知增加。这些发现首次通过实证证明,人类听觉系统在未达到意识水平时的激活会影响对模糊视觉运动显示的感知。