Boris M. Sheliga
Affiliations: | National Eye Institute, Bethesda, Maryland |
Area:
Eye movements, visionGoogle:
"Boris Sheliga"Mean distance: 14.38 (cluster 17) | S | N | B | C | P |
Parents
Sign in to add mentor| Bernard Cohen | post-doc | 1996-1998 | Mount Sinai |
| Frederick A. Miles | research scientist | NEI |
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Publications
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| Sheliga BM, Quaia C, FitzGibbon EJ, et al. (2020) Short-latency ocular-following responses: Weighted nonlinear summation predicts the outcome of a competition between two sine wave gratings moving in opposite directions. Journal of Vision. 20: 1 |
| Sheliga BM, Quaia C, FitzGibbon EJ, et al. (2016) Ocular-following responses to white noise stimuli in humans reveal a novel nonlinearity that results from temporal sampling. Journal of Vision. 16: 8 |
| Sheliga B, Quaia C, FitzGibbon E, et al. (2015) Human contrast normalization process operates on a local scale. Journal of Vision. 15: 287 |
| Sheliga BM, Quaia C, FitzGibbon EJ, et al. (2015) Anisotropy in spatial summation properties of human Ocular-Following Response (OFR). Vision Research. 109: 11-9 |
| Sheliga BM, Quaia C, FitzGibbon EJ, et al. (2013) Retinal visual processing constrains human ocular following response. Vision Research. 93: 29-42 |
| Quaia C, Sheliga BM, Optican LM, et al. (2013) Temporal evolution of pattern disparity processing in humans. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 33: 3465-76 |
| Sheliga BM, Quaia C, Cumming BG, et al. (2012) Spatial summation properties of the human ocular following response (OFR): dependence upon the spatial frequency of the stimulus. Vision Research. 68: 1-13 |
| Quaia C, Sheliga BM, Fitzgibbon EJ, et al. (2012) Ocular following in humans: spatial properties. Journal of Vision. 12 |
| Rambold HA, Sheliga BM, Miles FA. (2010) Evidence from vergence eye movements that disparities defined by luminance and contrast are sensed by independent mechanisms. Journal of Vision. 10 |
| Miles FA, Sheliga BM. (2010) Motion detection for reflexive tracking Dynamics of Visual Motion Processing: Neuronal, Behavioral, and Computational Approaches. 141-160 |