human | Q5 |
P2381 | Academic Tree ID | 1130 |
P1960 | Google Scholar author ID | 9dxofhcAAAAJ |
P244 | Library of Congress authority ID | n2005182111 |
P2038 | ResearchGate profile ID | Suzanne_Mckee |
P214 | VIAF ID | 14187395 |
P10832 | WorldCat Entities ID | E39PBJvMDkFM4w38VJ67WbPCwC |
P166 | award received | Edgar D. Tillyer Award | Q42417362 |
Davida Teller Award | Q56568737 | ||
P69 | educated at | University of California, Berkeley | Q168756 |
Vassar College | Q2093794 | ||
P108 | employer | Smith-Kettlewell Eye Research Institute | Q30279651 |
P734 | family name | McKee | Q21502144 |
McKee | Q21502144 | ||
McKee | Q21502144 | ||
P735 | given name | Suzanne | Q13138161 |
Suzanne | Q13138161 | ||
P21 | sex or gender | female | Q6581072 |
Q46455326 | A VEP measure of the binocular fusion of horizontal and vertical disparities |
Q52512252 | Binocular rivalry disrupts stereopsis. |
Q35994755 | Bridging the gap: global disparity processing in the human visual cortex |
Q34803758 | Collinear facilitation is largely uncertainty reduction |
Q42679055 | Constraints on long range interactions mediating contour detection |
Q36614669 | Crowding and surround suppression: not to be confused |
Q52211344 | Detecting a trajectory embedded in random-direction motion noise. |
Q46004738 | Discrimination of time: comparison of foveal and peripheral sensitivity |
Q40169135 | Disparity tuning of binocular facilitation and suppression after normal versus abnormal visual development |
Q35855841 | Disparity-specific spatial interactions: evidence from EEG source imaging |
Q34159826 | Disparity-tuned population responses from human visual cortex |
Q37578410 | Dynamics and cortical distribution of neural responses to 2D and 3D motion in human |
Q43996516 | Evidence for surface-based processing of binocular disparity |
Q53720171 | Failure of Donders' law during smooth pursuit eye movements |
Q44160472 | Improvement in vernier acuity with practice |
Q50774326 | Initial visual information determines endpoint precision for rapid pointing. |
Q40069692 | Integration regions for visual hyperacuity |
Q43511248 | Interference with line-orientation sensitivity* |
Q41456341 | Interpolation and the detection of fine structure in stereoscopic matching |
Q48383637 | Introduction of Davida Y. Teller 1997 recipient of the Friedenwald Medal. |
Q52217391 | Local motion detectors cannot account for the detectability of an extended trajectory in noise. |
Q45249342 | Mechanisms underlying the anisotropy of stereoscopic tilt perception |
Q52039236 | Motion grouping impairs speed discrimination. |
Q43755555 | Motion interference in speed discrimination |
Q33711498 | Neural mechanisms underlying amblyopia |
Q45367286 | Perceived global flow direction reveals local vector weighting by luminance |
Q40595848 | Predicting future motion |
Q45112615 | Prediction of early-onset esotropia from components of the infantile squint syndrome |
Q33534651 | Preschool vision screening: results of a systematic review. |
Q45721039 | Quantitative studies in retinex theroy. A comparison between theoretical predictions and observer responses to the "color mondrian" experiments |
Q52034072 | Resolution for spatial segregation and spatial localization by motion signals. |
Q37384547 | Saccadic latency in amblyopia |
Q43835301 | Seeing motion behind occluders |
Q41335786 | Sensitivity of smooth eye movement to small differences in target velocity |
Q39376699 | Sensitivity to depth relief on slanted surfaces |
Q52189245 | Simultaneous encoding of direction at a local and global scale. |
Q52378989 | Stereo matching precedes dichoptic masking. |
Q41991668 | Stereo sensitivity depends on stereo matching |
Q41759872 | Stimulus configuration determines the detectability of motion signals in noise |
Q52325705 | Temporal coherence theory for the detection and measurement of visual motion. |
Q52361029 | The 'uniqueness constraint' and binocular masking. |
Q34163762 | The classification of amblyopia on the basis of visual and oculomotor performance |
Q34653070 | The effect of spatial configuration on surround suppression of contrast sensitivity |
Q34216206 | The pattern of visual deficits in amblyopia |
Q34181926 | The precision of binocular and monocular depth judgments in natural settings |
Q47408635 | The precision of size constancy |
Q50530314 | The spatial requirements for fine stereoacuity |
Q33743746 | The time course of contrast masking reveals two distinct mechanisms of human surround suppression |
Q36627334 | The wallpaper illusion explained |
Q34653022 | Two distinct mechanisms of suppression in human vision |
Q33952465 | Visual acuity in the presence of retinal-image motion* |
Q30497762 | Visual deficits in anisometropia |
Q48368577 | Visual information throughout a reach determines endpoint precision |
Q52178023 | Visual search for motion-in-depth: stereomotion does not 'pop out' from disparity noise. |
Q41627904 | What prior uniocular processing is necessary for stereopsis? |
Search more.