Simon Stringer, Ph.D
Affiliations: | Experimental Psychology | University of Oxford, Oxford, United Kingdom |
Area:
Computational NeuroscienceWebsite:
http://www.oftnai.orgGoogle:
"Simon Stringer"Mean distance: 13.87 (cluster 23) | S | N | B | C | P |
Cross-listing: PsychTree
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Sign in to add traineeBenjamin D. Evans | grad student | Oxford | |
Juan Manuel Galeazzi | grad student | Oxford | |
Irina Higgins | grad student | Oxford | |
Hector Page | grad student | Oxford | |
James Tromans | grad student | Oxford | |
Daniel Walters | grad student | Oxford | |
Bedeho M. W. Mender | grad student | 2010- | Oxford |
Akihiro Eguchi | grad student | 2012- | Oxford |
Harry Jordan | grad student | 2014- | Oxford |
Daniel Navarro | grad student | 2014- | Oxford |
Nasir Ahmad | grad student | 2015- | Oxford |
Hannah Dury | grad student | 2015- | Oxford |
James Isbister | grad student | 2016- | Oxford |
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Publications
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Leadholm N, Stringer S. (2022) Hierarchical binding in convolutional neural networks: Making adversarial attacks geometrically challenging. Neural Networks : the Official Journal of the International Neural Network Society. 155: 258-286 |
St Clere Smithe T, Stringer SM. (2022) The Role of Idiothetic Signals, Landmarks, and Conjunctive Representations in the Development of Place and Head-Direction Cells: A Self-Organizing Neural Network Model. Cerebral Cortex Communications. 3: tgab052 |
Jordan HOC, Navarro DM, Stringer SM. (2020) The formation and use of hierarchical cognitive maps in the brain: A neural network model. Network (Bristol, England). 1-105 |
Navarro DM, Smithson HE, Stringer SM. (2020) A Modeling Study of the Emergence of Eye Position Gain Fields Modulating the Responses of Visual Neurons in the Brain. Frontiers in Neural Circuits. 14: 30 |
Page HJI, Walters D, Stringer SM. (2018) A speed-accurate self-sustaining head direction cell path integration model without recurrent excitation. Network (Bristol, England). 29: 37-69 |
Navarro DM, Mender BMW, Smithson HE, et al. (2018) Self-organising coordinate transformation with peaked and monotonic gain modulation in the primate dorsal visual pathway. Plos One. 13: e0207961 |
Isbister JB, Eguchi A, Ahmad N, et al. (2018) A new approach to solving the feature-binding problem in primate vision. Interface Focus. 8: 20180021 |
Eguchi A, Isbister JB, Ahmad N, et al. (2018) The emergence of polychronization and feature binding in a spiking neural network model of the primate ventral visual system. Psychological Review |
Higgins I, Stringer S, Schnupp J. (2018) A Computational Account of the Role of Cochlear Nucleus and Inferior Colliculus in Stabilizing Auditory Nerve Firing for Auditory Category Learning. Neural Computation. 1-29 |
Higgins I, Stringer S, Schnupp J. (2017) Unsupervised learning of temporal features for word categorization in a spiking neural network model of the auditory brain. Plos One. 12: e0180174 |