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 …

Humans have several mechanisms for the visual perception of motion, including one that is
luminance‐based (first‐order) and another that is luminance‐independent (second‐order) …

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 …

Magnetoencephalography (MEG) has become a standard approach to the investigation of
human brain functions. This review starts with a brief review of the human visual system and …

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

We investigated the direction-specificity of motion adaptation, by recording magnetic
responses evoked by motion onsets under both adapted and control conditions. The inter …

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 …

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 …

Humans take a long time to respond to the slow visual motion of an object. It is not known
what neural mechanism causes this delay. We measured magnetoencephalographic neural …

Humans can estimate the speed of an object's motion independently of other visual
information. Although speed-related neural activity is known to exist in the primate brain …