Search Results - "Welchman, Andrew E."

The Human Brain in Depth: How We See in 3D by Welchman, Andrew E

“…Human perception is remarkably flexible: We experience vivid three-dimensional (3D) structure under diverse conditions, from the seemingly random magic-eye…”
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Proscription supports robust perceptual integration by suppression in human visual cortex by Rideaux, Reuben, Welchman, Andrew E.

“…Perception relies on integrating information within and between the senses, but how does the brain decide which pieces of information should be integrated and…”
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The integration of motion and disparity cues to depth in dorsal visual cortex by Ban, Hiroshi, Preston, Tim J, Meeson, Alan, Welchman, Andrew E

“…This study used fMRI to find that the dorsal visual area (V3B/KO) combines information about binocular disparity and relative motion cues to work out depth…”
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Late Development of Cue Integration Is Linked to Sensory Fusion in Cortex by Dekker, Tessa M., Ban, Hiroshi, van der Velde, Bauke, Sereno, Martin I., Welchman, Andrew E., Nardini, Marko

“…Adults optimize perceptual judgements by integrating different types of sensory information [1, 2]. This engages specialized neural circuits that fuse signals…”
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Multivoxel Pattern Selectivity for Perceptually Relevant Binocular Disparities in the Human Brain by Preston, Tim J, Li, Sheng, Kourtzi, Zoe, Welchman, Andrew E

“…Processing of binocular disparity is thought to be widespread throughout cortex, highlighting its importance for perception and action. Yet the computations…”
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Areal differences in depth cue integration between monkey and human by Armendariz, Marcelo, Ban, Hiroshi, Welchman, Andrew E, Vanduffel, Wim

“…Electrophysiological evidence suggested primarily the involvement of the middle temporal (MT) area in depth cue integration in macaques, as opposed to human…”
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7 tesla FMRI reveals systematic functional organization for binocular disparity in dorsal visual cortex by Goncalves, Nuno R, Ban, Hiroshi, Sánchez-Panchuelo, Rosa M, Francis, Susan T, Schluppeck, Denis, Welchman, Andrew E

“…The binocular disparity between the views of the world registered by the left and right eyes provides a powerful signal about the depth structure of the…”
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fMRI Activity in Posterior Parietal Cortex Relates to the Perceptual Use of Binocular Disparity for Both Signal-In-Noise and Feature Difference Tasks by Patten, Matthew L, Welchman, Andrew E

“…Visually guided action and interaction depends on the brain's ability to (a) extract and (b) discriminate meaningful targets from complex retinal inputs…”
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Training Transfers the Limits on Perception from Parietal to Ventral Cortex by Chang, Dorita H.F., Mevorach, Carmel, Kourtzi, Zoe, Welchman, Andrew E.

“…Visually guided behavior depends on (1) extracting and (2) discriminating signals from complex retinal inputs, and these perceptual skills improve with…”
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Integration of texture and disparity cues to surface slant in dorsal visual cortex by Murphy, Aidan P, Ban, Hiroshi, Welchman, Andrew E

“…Reliable estimation of three-dimensional (3D) surface orientation is critical for recognizing and interacting with complex 3D objects in our environment. Human…”
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Look but don't touch: Visual cues to surface structure drive somatosensory cortex by Sun, Hua-Chun, Welchman, Andrew E., Chang, Dorita H.F., Di Luca, Massimiliano

“…When planning interactions with nearby objects, our brain uses visual information to estimate shape, material composition, and surface structure before we come…”
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Differential processing of binocular and monocular gloss cues in human visual cortex by Sun, Hua-Chun, Di Luca, Massimiliano, Ban, Hiroshi, Muryy, Alexander, Fleming, Roland W, Welchman, Andrew E

“…The visual impression of an object's surface reflectance ("gloss") relies on a range of visual cues, both monocular and binocular. Whereas previous imaging…”
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Specular reflections and the estimation of shape from binocular disparity by Muryy, Alexander A., Welchman, Andrew E., Blake, Andrew, Fleming, Roland W.

“…Binocular stereopsis is a powerful visual depth cue. To exploit it, the brain matches features from the two eyes’ views and measures their interocular…”
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Decoding the future from past experience: learning shapes predictions in early visual cortex by Luft, Caroline D B, Meeson, Alan, Welchman, Andrew E, Kourtzi, Zoe

“…Learning the structure of the environment is critical for interpreting the current scene and predicting upcoming events. However, the brain mechanisms that…”
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Perceptual integration for qualitatively different 3-D cues in the human brain by Dövencioğlu, Dicle, Ban, Hiroshi, Schofield, Andrew J, Welchman, Andrew E

“…The visual system's flexibility in estimating depth is remarkable: We readily perceive 3-D structure under diverse conditions from the seemingly random dots of…”
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3D shape perception from combined depth cues in human visual cortex by Kourtzi, Zoe, Welchman, Andrew E, Deubelius, Arne, Conrad, Verena, Bülthoff, Heinrich H

“…Our perception of the world's three-dimensional (3D) structure is critical for object recognition, navigation and planning actions. To accomplish this, the…”
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Neural Correlates of Disparity-Defined Shape Discrimination in the Human Brain by Chandrasekaran, Chandramouli, Canon, Victor, Dahmen, Johannes C, Kourtzi, Zoe, Welchman, Andrew E

“…1 Department of Psychology, Princeton University, Princeton, New Jersey; 2 Max-Planck Institute for Biological Cybernetics, Tübingen, Germany; 3 Department of…”
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Bayesian motion estimation accounts for a surprising bias in 3D vision by Welchman, Andrew E, Lam, Judith M, Bülthoff, Heinrich H

“…Determining the approach of a moving object is a vital survival skill that depends on the brain combining information about lateral translation and…”
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But Still It Moves: Static Image Statistics Underlie How We See Motion by Rideaux, Reuben, Welchman, Andrew E

“…Seeing movement promotes survival. It results from an uncertain interplay between evolution and experience, making it hard to isolate the drivers of…”
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Adaptive Estimation of Three-Dimensional Structure in the Human Brain by Preston, Tim J, Kourtzi, Zoe, Welchman, Andrew E

“…Perceiving the three-dimensional (3D) properties of the environment relies on the brain bringing together ambiguous cues (e.g., binocular disparity, shading,…”
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