Michael C. Dorris

Affiliations: 
Queen's University, Kingston, ON, Canada 
Website:
http://brain.phgy.queensu.ca/dorrislab/
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"Michael Dorris"
Mean distance: 13.64 (cluster 29)
 
SNBCP

Parents

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Douglas P. Munoz grad student 2000 Queen's University, Canada
 (Neural correlates of pre -target factors influencing saccadic reaction times.)
Paul W. Glimcher post-doc NYU

Collaborators

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Brian Coe collaborator 2004- Queens University
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Publications

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Yu G, Yang M, Yu P, et al. (2017) Time compression of visual perception around microsaccades. Journal of Neurophysiology. jn.00029.2017
Yu G, Xu B, Zhao Y, et al. (2015) Microsaccade direction reflects the economic value of potential saccade goals and predicts saccade choice. Journal of Neurophysiology. jn.00987.2015
Standage D, Blohm G, Dorris MC. (2014) On the neural implementation of the speed-accuracy trade-off. Frontiers in Neuroscience. 8: 236
Standage D, You H, Wang DH, et al. (2013) Trading speed and accuracy by coding time: a coupled-circuit cortical model. Plos Computational Biology. 9: e1003021
Lee D, Dorris MC. (2013) Brain Circuitry for Social Decision Making in Non-Human Primates Neuroeconomics: Decision Making and the Brain: Second Edition. 493-511
Kan JY, Niel U, Dorris MC. (2012) Evidence for a link between the experiential allocation of saccade preparation and visuospatial attention. Journal of Neurophysiology. 107: 1413-20
Marino RA, Trappenberg TP, Dorris M, et al. (2012) Spatial interactions in the superior colliculus predict saccade behavior in a neural field model. Journal of Cognitive Neuroscience. 24: 315-36
Paré M, Dorris MC. (2012) The role of posterior parietal cortex in the regulation of saccadic eye movements The Oxford Handbook of Eye Movements
Milstein DM, Dorris MC. (2011) The Relationship between Saccadic Choice and Reaction Times with Manipulations of Target Value. Frontiers in Neuroscience. 5: 122
Standage D, You H, Wang DH, et al. (2011) Gain modulation by an urgency signal controls the speed-accuracy trade-off in a network model of a cortical decision circuit. Frontiers in Computational Neuroscience. 5: 7
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