Department Psychologie, Ludwig-Maximilians-Universität München, Leopoldstrasse 13, 80802, Munich, Germany.
Exp Brain Res. 2010 Jun;203(4):723-35. doi: 10.1007/s00221-010-2286-3. Epub 2010 May 16.
Research on multisensory interactions has shown that the perceived timing of a visual event can be captured by a temporally proximal sound. This effect has been termed 'temporal ventriloquism effect.' Using the Ternus display, we systematically investigated how auditory configurations modulate the visual apparent-motion percepts. The Ternus display involves a multielement stimulus that can induce either of two different percepts of apparent motion: 'element motion' or 'group motion'. We found that two sounds presented in temporal proximity to, or synchronously with, the two visual frames, respectively, can shift the transitional threshold for visual apparent motion (Experiments 1 and 3). However, such effects were not evident with single-sound configurations (Experiment 2). A further experiment (Experiment 4) provided evidence that time interval information is an important factor for crossmodal interaction of audiovisual Ternus effect. The auditory interval was perceived as longer than the same physical visual interval in the sub-second range. Furthermore, the perceived audiovisual interval could be predicted by optimal integration of the visual and auditory intervals.
多感觉相互作用的研究表明,视觉事件的感知时间可以通过时间上接近的声音来捕捉。这种效应被称为“时间腹语效应”。我们使用 Ternus 显示器系统地研究了听觉配置如何调节视觉似动知觉。Ternus 显示器涉及一个多元素刺激,可以引起两种不同的似动知觉:“元素运动”或“群组运动”。我们发现,分别在两个视觉帧的时间接近或同步呈现的两个声音可以改变视觉似动的过渡阈值(实验 1 和 3)。然而,单声音配置中没有明显的这种效应(实验 2)。进一步的实验(实验 4)提供了证据,表明时间间隔信息是视听 Ternus 效应的跨模态相互作用的一个重要因素。在亚秒范围内,听觉间隔被感知为比相同的物理视觉间隔长。此外,听觉和视觉间隔的最佳整合可以预测感知的视听间隔。