Neurons in the rostral lower bank of the superior temporal sulcus (TEs), part of the inferior
temporal cortex, respond selectively to three-dimensional (3D) shapes. We have …

Differences in the horizontal positions of retinal images—binocular disparity—provide
important cues for three-dimensional object recognition and manipulation. We investigated …

Stereoscopic vision requires the correspondence problem to be solved, ie, discarding" false"
matches between images of the two eyes, while keeping correct ones. To advance our …

The lower bank of the superior temporal sulcus (TEs), part of the inferior temporal cortex,
contains neurons selective for disparity-defined three-dimensional (3-D) shape. The large …

Depth information is necessary for adjusting the hand to the three-dimensional (3-D) shape
of an object to grasp it. The transformation of visual information into appropriate distal motor …

Dynamic random-dot stereograms (dRDS) elicit brain activity generated exclusively by
cortical neurons sensitive to binocular horizontal disparity. We studied 20 adults with …

Severe visual fatigue symptoms occur while users view three‐dimensional (3D) content.
These symptoms adversely affect the user experience and hinder the widespread …

Binocular visually evoked potentials (VEP) were recorded from the left and right occipital
cortices of right-handed subjects in response to convergent and divergent stimuli, each …

Binocular visual evoked potentials (VEP) were recorded from the left and right occipital
cortices of right-handed subjects in response to six different levels of convergent disparity …

Background/Aims: In exploring human factors, stereoscopic 3D images have been used to
investigate the neural responses associated with excessive depth, texture complexity, and …