Abstract

Early direction-selective neurons in the primary visual cortex are widely considered to be the main neural basis underlying motion perception even though motion perception can also rely on attentively tracking the position of objects. Because of their small receptive fields, early direction-selective neurons suffer from the aperture problem, which is assumed to be overcome by integrating inputs from many early direction-selective neurons. Because the perceived motion of objects sometimes depends on static form information and does not always match the mean direction of local motion signals, the general consensus is that motion integration is form dependent and complex. Based on the fact that early direction-selective neurons respond to motion only within a short temporal window, the present study used stroboscopic motion to test their contribution to motion perception of objects. For conditions under which the perceived motion was impaired by stroboscopic motion, the perceived motion matched the mean direction of local motion signals and was form independent. For classic conditions under which the perceived motion could not be explained by a simple form independent averaging of local motion signals, neutralizing the contribution of early direction-selective neurons using stroboscopic motion had little impact on the perceived motion, which demonstrates that the perceived motion relied on position tracking, not on early direction-selective neurons. When the perceived motion relies on position tracking, assuming that motion perception relies on early direction-selective neurons can lead to erroneously postulate the existence of complex or form-dependent integration of inputs from early direction-selective neurons. (PsycInfo Database Record (c) 2022 APA, all rights reserved).

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