Objectives: There have been only few studies of visually-evoked cortical responses to
apparent motion as a function of stimulus speed. Most earlier findings on evoked peak …

OBJECTIVE: To determine if there is an optimum spatial extent for the detection of moving
objects in humans. METHODS: We investigated human brain responses to motion at various …

To determine the neural correlate of apparent motion perception, we measured magnetic
responses to visual stimuli in apparent motion and compared the results with subjective …

The human visual system is considered to have at least two different mechanisms for
perceiving motions: one for luminance-based (first-order) motions and another for non …

We investigated whether direction information is represented in the population-level neural
response evoked by the visual motion stimulus, as measured by magnetoencephalography …

Visual stimulus in apparent motion evokes a magnetic field from the extrastriate cortex in
humans. To investigate what this magnetic field represents, we measured the latencies of …

The ability to detect the motion of objects is critical to survival, and understanding the cortical
mechanisms involved in this process remains a key challenge in sensory neuroscience. A …

Magnetoencephalography (MEG) was used to find neural activities, in the human brain,
involved in perception of velocity changes in visual motion. We recorded MEG responses …

Human brain uses visual motion inputs not only for generating subjective sensation of
motion but also for directly guiding involuntary actions. For instance, during arm reaching, a …

This study investigated (1) the responses associated with the perception of motion in depth
induced by a series of scale-changing paradigms, and (2) the locations of the dipoles in the …