Purpose: To identify the regions responding to the stereoscopic motion induced by binocular disparity and investigate the relationship between the response intensity of these regions and speeds of spatial motion. Methods: The stereoscopic stimulus applied Random Dot Stereogram (RDS) distributed as checkerboard and a series of continuous disparities formed a dynamic stereoscopic stimulus. Observer needed to watch some static stimuli and dynamic stimuli moving in depth direction. The speeds of dynamic stimulus consisted of three levels: 0.315 degree/s, 0.63 degree/s, 1.26 degree/s. The functional Magnetic Resonance Imaging (fMRI) was used to sample the Blood Oxygen Level-Dependent (BOLD) signals and identify the regions sensitive to stereosco...
Perception of dynamic scenes in our environment results from the evaluation of visual features such ...
The visual perception of 3D depth is underpinned by the brain’s ability to combine signals from the ...
Visual motion processing is one of the main subsystems of the visual system of primates, as the abil...
Purpose: To identify the regions responding to the stereoscopic motion induced by binocular disparit...
Binocular disparity is of vital importance in stereoscopic vision. It determines the depth magnitude...
The binocular disparity of two retina images is a main cue of stereoscopic vision. However, the glob...
The human visual system has an impressive ability to extract tiny differences from the left and righ...
The processing of optic flow fields in motion-sensitive areas in human visual cortex was studied wit...
The processing of optic flow fields in motion-sensitive areas in human visual cortex was studied wit...
AbstractWe used functional magnetic resonance imaging (fMRI) to investigate brain regions involved i...
The processing of optic flow fields in motion-sensitive areas in human visual cortex was studied wit...
Introduction: Certain areas of the brain are known to be specialized for processing distinct stimulu...
The relationship between brain activity and conscious visual experience is central to our understand...
We used binocular stimuli to define how the visual location of stereoscopic depth structure maps top...
The relationship between brain activity and conscious visual experience is central to our understand...
Perception of dynamic scenes in our environment results from the evaluation of visual features such ...
The visual perception of 3D depth is underpinned by the brain’s ability to combine signals from the ...
Visual motion processing is one of the main subsystems of the visual system of primates, as the abil...
Purpose: To identify the regions responding to the stereoscopic motion induced by binocular disparit...
Binocular disparity is of vital importance in stereoscopic vision. It determines the depth magnitude...
The binocular disparity of two retina images is a main cue of stereoscopic vision. However, the glob...
The human visual system has an impressive ability to extract tiny differences from the left and righ...
The processing of optic flow fields in motion-sensitive areas in human visual cortex was studied wit...
The processing of optic flow fields in motion-sensitive areas in human visual cortex was studied wit...
AbstractWe used functional magnetic resonance imaging (fMRI) to investigate brain regions involved i...
The processing of optic flow fields in motion-sensitive areas in human visual cortex was studied wit...
Introduction: Certain areas of the brain are known to be specialized for processing distinct stimulu...
The relationship between brain activity and conscious visual experience is central to our understand...
We used binocular stimuli to define how the visual location of stereoscopic depth structure maps top...
The relationship between brain activity and conscious visual experience is central to our understand...
Perception of dynamic scenes in our environment results from the evaluation of visual features such ...
The visual perception of 3D depth is underpinned by the brain’s ability to combine signals from the ...
Visual motion processing is one of the main subsystems of the visual system of primates, as the abil...