This study investigated the contribution of stereoscopic depth cues to the reliability of ordinal depth judgments in complex natural scenes. Participants viewed photographs of cluttered natural scenes, either monocularly or stereoscopically. On each trial, they judged which of two indicated points in the scene was closer in depth. We assessed the reliability of these judgments over repeated trials, and how well they correlated with the actual disparities of the points between the left and right eyes' views. The reliability of judgments increased as their depth separation increased, was higher when the points were on separate objects, and deteriorated for point pairs that were more widely separated in the image plane. Stereoscopic viewing im...
Recent experiments have established that monocular areas arising due to occlusion of one object by a...
We investigated the ability to use linear perspective to perceive depth from monocular images. Speci...
SummaryEstimating depth from binocular disparity is extremely precise, and the cue does not depend o...
Our perception of depth is substantially enhanced by the fact that we have binocular vision. This pr...
Stereoscopic 3D viewing (S3D) can create a clear and compelling improvement in the quality of the 3D...
A common way to present 3D materials to human observers nowadays is by stereoscopic displaying on 3D...
International audienceThe perception of depth in images and video sequences is based on different dep...
In two experiments with 162 participants, we examined the role of stereoscopic depth cues in the mem...
The lateral separation of our eyes results in the projection of slightly different images in each ey...
Perception of depth in natural viewing is based on information reported by many cues. These cues hav...
Humans can obtain an unambiguous perception of depth and 3-dimensionality with 1 eye or when viewing...
Stereoscopic depth is most useful when it comes from relative rather than absolute disparities. Howe...
International audienceHuman visual system takes advantage of different cues simultaneously to provid...
Binocular disparity is an important cue to depth, allowing us to make very fine discriminations of t...
AbstractEarlier studies showed that the disparity with respect to other visible points could not exp...
Recent experiments have established that monocular areas arising due to occlusion of one object by a...
We investigated the ability to use linear perspective to perceive depth from monocular images. Speci...
SummaryEstimating depth from binocular disparity is extremely precise, and the cue does not depend o...
Our perception of depth is substantially enhanced by the fact that we have binocular vision. This pr...
Stereoscopic 3D viewing (S3D) can create a clear and compelling improvement in the quality of the 3D...
A common way to present 3D materials to human observers nowadays is by stereoscopic displaying on 3D...
International audienceThe perception of depth in images and video sequences is based on different dep...
In two experiments with 162 participants, we examined the role of stereoscopic depth cues in the mem...
The lateral separation of our eyes results in the projection of slightly different images in each ey...
Perception of depth in natural viewing is based on information reported by many cues. These cues hav...
Humans can obtain an unambiguous perception of depth and 3-dimensionality with 1 eye or when viewing...
Stereoscopic depth is most useful when it comes from relative rather than absolute disparities. Howe...
International audienceHuman visual system takes advantage of different cues simultaneously to provid...
Binocular disparity is an important cue to depth, allowing us to make very fine discriminations of t...
AbstractEarlier studies showed that the disparity with respect to other visible points could not exp...
Recent experiments have established that monocular areas arising due to occlusion of one object by a...
We investigated the ability to use linear perspective to perceive depth from monocular images. Speci...
SummaryEstimating depth from binocular disparity is extremely precise, and the cue does not depend o...