Souman Jan L, Freeman Tom C A, Eikmeier Verena, Ernst Marc O
Multisensory Perception and Action Group, Max Planck Institute for Biological Cybernetics, Tübingen, Germany.
J Vis. 2010 Sep 22;10(11):14. doi: 10.1167/10.11.14.
Perceived visual speed has been reported to be reduced during walking. This reduction has been attributed to a partial subtraction of walking speed from visual speed (F. H. Durgin & K. Gigone, 2007; F. H. Durgin, K. Gigone, & R. Scott, 2005). We tested whether observers still have access to the retinal flow before subtraction takes place. Observers performed a 2IFC visual speed discrimination task while walking on a treadmill. In one condition, walking speed was identical in the two intervals, while in a second condition walking speed differed between intervals. If observers have access to the retinal flow before subtraction, any changes in walking speed across intervals should not affect their ability to discriminate retinal flow speed. Contrary to this "direct access hypothesis," we found that observers were worse at discrimination when walking speed differed between intervals. The results therefore suggest that observers do not have access to retinal flow before subtraction. We also found that the amount of subtraction depended on the visual speed presented, suggesting that the interaction between the processing of visual input and of self-motion is more complex than previously proposed.
据报道,在行走过程中,感知到的视觉速度会降低。这种降低被归因于视觉速度中减去了部分行走速度(F. H. 德金 & K. 吉戈内,2007;F. H. 德金、K. 吉戈内 & R. 斯科特,2005)。我们测试了观察者在减去过程发生之前是否仍然能够获取视网膜流动信息。观察者在跑步机上行走时执行了一项二择一的视觉速度辨别任务。在一种条件下,两个时间间隔内的行走速度相同,而在另一种条件下,时间间隔之间的行走速度不同。如果观察者在减去之前能够获取视网膜流动信息,那么时间间隔之间行走速度的任何变化都不应影响他们辨别视网膜流动速度的能力。与这种“直接获取假设”相反,我们发现当时间间隔之间的行走速度不同时,观察者的辨别能力更差。因此,结果表明观察者在减去之前无法获取视网膜流动信息。我们还发现减去的量取决于呈现的视觉速度,这表明视觉输入处理与自我运动处理之间的相互作用比之前提出的更为复杂。