Consequences of Traumatic Brain Injury for Human Vergence Dynamics. Frontiers In Neurology, 5. http://doi.org/10.3389/fneur.2014.00282. (2015).
Contextual control of saccadic reaction times using a latency-contingent paradigm. European Conference on Visual Perception. Berlin, Germany: Berlin, Germany.. (2017).
Contour completion through depth interferes with stereoacuity. Vision Research, 42, 2153-162.. (2002).
Contour detection threshold: repeatability and learning with ‘contour cards’. Spatial Visionspatial Vision, 12, 257-266.. (1999).
Contour Integration Deficits in Anisometropic Amblyopia. Invest Ophthalmol Vis Sciinvest Ophthalmol Vis Sci, 42, 875-878.. (2001).
Contours in noise: a role for self-cuing?. Journal Of Vision, 9, 2 1-16.. (2009).
Contrast Normalization Accounts for Binocular Interactions in Human Striate and Extra-striate Visual Cortex. Journal Of Neuroscience, 40(13), 2753-2763.. (2020).
Contrasting the roles of the supplementary and frontal eye fields in ocular decision making. Journal Of Neurophysiology, 111, 2644–2655.. (2014).
Control of saccadic latencies in a choice paradigm. European Conference on Visual Perception. Barcelona, Spain: Barcelona, Spain.. (2016).
Control of saccadic latencies in a concurrent interval reinforcement schedule. Association for Behavior Analysis International. Paris, France: Paris, France.. (2017).
Control of saccadic latency in a dynamic environment: allocation of saccades in time follows the matching law. Journal Of Neurophysiology, 119, 413-421. http://doi.org/10.1152/jn.00634.2017. (2018).
Convergence rates of algorithms for visual search: detecting visual contours. In NIPS (pp. 641–647).. (1998).
Coordination of Eye and Head Movements in Cavia Porcellus. Neuroscience Program. University of Michigan.. (June 2011).
Corneal endothelial dysfunction in Pearson syndrome. Ophthalmic Genetics, 34. http://doi.org/10.3109/13816810.2011.610862. (2011).
The Cortical Network for Braille Writing in the Blind. Electronic Imaging, 2016, 1–6. http://doi.org/10.2352/ISSN.2470-1173.2016.16.HVEI-095 PMID: 28890944 PMCID: PMC5589194. (Feb 14 2016).
Cortical recovery from effects of monocular deprivation caused by diffusion and occlusion. Brain Research, 548, 63–73.. (1991).
Cortical sources of vernier acuity: an EEG-source imaging study. Journal Of Vision, 15, 1004.. (2015).
Cortical sources of vernier acuity in the human visual system: an EEG source-imaging study. Journal Of Vision, 17(6).. (2017).
A covered eye fails to follow an object moving in depth. Scientific Reports, 11. http://doi.org/https://doi.org/10.1038/s41598-021-90371-8. (2021).
A cross-modal perspective on the relationships between imagery and working memory. Frontier In Psyhology , 3. http://doi.org/10.3389/fpsyg.2012.00561. (Jan 2013).
Crossmodal transfer of object information in human echolocation. International Multisensory Research Conference. Fukuoka, Japan: Fukuoka, Japan.. (2011).
Crosswatch: a camera phone system for orienting visually impaired pedestrians at traffic intersections. Computers Helping People with Special Needs. Springer Berlin Heidelberg.. (2008).
Crosswatch: a system for providing guidance to visually impaired travelers at traffic intersections. Journal Of Assistive Technologies, 7.. (2013).
The crosswatch traffic intersection analyzer: a roadmap for the future. In Computers Helping People with Special Needs (pp. 25–28). Springer Berlin Heidelberg.. (2012).