Michael Spratling
Affiliations: | King's College London, London, UK |
Area:
computational neuroscience, visual systemWebsite:
http://www.corinet.org/mike/Google:
"Michael Spratling"Mean distance: 14.26 (cluster 29) | S | N | B | C | P |
Cross-listing: Computational Biology Tree
Parents
Sign in to add mentor| Gillian Hayes | grad student | Edinburgh | |
| Mark H. Johnson | post-doc | Birkbeck College |
Children
Sign in to add trainee| Lawrence Watling | grad student | Birkbeck College | |
| Wasif Muhammad | grad student | 2011-2016 | King's College |
| Qi Wang | grad student | 2012-2016 | King's College |
| Kris De Meyer | post-doc | King's College |
BETA: Related publications
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Publications
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| Muhammad W, Spratling MW. (2017) A neural model for eye–head–arm coordination Advanced Robotics. 31: 650-663 |
| Muhammad W, Spratling MW. (2016) A Neural Model of Coordinated Head and Eye Movement Control Journal of Intelligent & Robotic Systems. 85: 107-126 |
| Muhammad W, Spratling MW. (2015) A neural model of binocular saccade planning and vergence control Adaptive Behavior. 23: 265-282 |
| Sirois S, Spratling M, Thomas M, et al. (2014) Compendio de Neuroconstructivismo: cómo el cerebro construye la cognición Revista Argentina De Ciencias Del Comportamiento. 6: 60-81 |
| De Meyer K, Spratling MW. (2013) A model of partial reference frame transforms through pooling of gain-modulated responses. Cerebral Cortex (New York, N.Y. : 1991). 23: 1230-9 |
| Spratling MW. (2012) Predictive coding as a model of the V1 saliency map hypothesis. Neural Networks : the Official Journal of the International Neural Network Society. 26: 7-28 |
| De Meyer K, Spratling MW. (2011) Multiplicative gain modulation arises through unsupervised learning in a predictive coding model of cortical function. Neural Computation. 23: 1536-67 |
| Spratling MW. (2011) A single functional model accounts for the distinct properties of suppression in cortical area V1. Vision Research. 51: 563-76 |
| Spratling MW, De Meyer K, Kompass R. (2009) Unsupervised learning of overlapping image components using divisive input modulation. Computational Intelligence and Neuroscience. 381457 |
| De Meyer K, Spratling MW. (2009) A model of non-linear interactions between cortical top-down and horizontal connections explains the attentional gating of collinear facilitation. Vision Research. 49: 553-68 |