Perception of dynamic scenes in our environment results from the evaluation of visual features such as the fundamental spatial and temporal frequency components of a moving object. The ratio between these two components represents the object's speed of motion. The human middle temporal cortex hMT+ has a crucial biological role in the direct encoding of object speed. However, the link between hMT+ speed encoding and the spatiotemporal frequency components of a moving object is still under explored. Here, we recorded high resolution 7T blood oxygen level-dependent BOLD responses to different visual motion stimuli as a function of their fundamental spatial and temporal frequency components. We fitted each hMT+ BOLD response with a 2D Gaussian ...
Purpose: To identify the regions responding to the stereoscopic motion induced by binocular disparit...
Viewing photographs of objects in motion evokes higher fMRI activation in human MT+ than similar pho...
noIn this report, we evaluate the role of visual areas responsive to motion in the human brain in th...
The human middle temporal complex (hMT+) has a crucial biological relevance for the processing and d...
Visual motion processing is one of the main subsystems of the visual system of primates, as the abil...
Abstract The main visual pathway that conveys motion information to the middle temporal complex (hMT...
Changes in brain neuronal activity are reflected by hemodynamic responses mapped through Blood Oxyge...
Visual motion on the macaque retina is processed by direction- and speed-selective neurons in extras...
Area MT in extrastriate visual cortex is widely believed to be responsible for the perception of obj...
A car driving through the fog appears tomovemore slowly than one driving on a clear and sunny day. I...
The ability to estimate the speed of an object irrespective of size or texture is a crucial function...
AbstractWe have shown previously that neurons in the middle temporal (MT) area of primate cortex hav...
Purpose: To identify the regions responding to the stereoscopic motion induced by binocular disparit...
Viewing photographs of objects in motion evokes higher fMRI activation in human MT+ than similar pho...
noIn this report, we evaluate the role of visual areas responsive to motion in the human brain in th...
The human middle temporal complex (hMT+) has a crucial biological relevance for the processing and d...
Visual motion processing is one of the main subsystems of the visual system of primates, as the abil...
Abstract The main visual pathway that conveys motion information to the middle temporal complex (hMT...
Changes in brain neuronal activity are reflected by hemodynamic responses mapped through Blood Oxyge...
Visual motion on the macaque retina is processed by direction- and speed-selective neurons in extras...
Area MT in extrastriate visual cortex is widely believed to be responsible for the perception of obj...
A car driving through the fog appears tomovemore slowly than one driving on a clear and sunny day. I...
The ability to estimate the speed of an object irrespective of size or texture is a crucial function...
AbstractWe have shown previously that neurons in the middle temporal (MT) area of primate cortex hav...
Purpose: To identify the regions responding to the stereoscopic motion induced by binocular disparit...
Viewing photographs of objects in motion evokes higher fMRI activation in human MT+ than similar pho...
noIn this report, we evaluate the role of visual areas responsive to motion in the human brain in th...