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A connectivity-constrained computational account of topographic organization in primate high-level visual cortex
View ORCID ProfileNicholas M. Blauch, View ORCID ProfileMarlene Behrmann, David C. Plaut
doi: https://doi.org/10.1101/2021.05.29.446297
Nicholas M. Blauch
aProgram in Neural Computation, Carnegie Mellon University
bNeuroscience Institute, Carnegie Mellon University
Marlene Behrmann
bNeuroscience Institute, Carnegie Mellon University
cDepartment of Psychology, Carnegie Mellon University
David C. Plaut
bNeuroscience Institute, Carnegie Mellon University
cDepartment of Psychology, Carnegie Mellon University
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Posted July 12, 2021.
A connectivity-constrained computational account of topographic organization in primate high-level visual cortex
Nicholas M. Blauch, Marlene Behrmann, David C. Plaut
bioRxiv 2021.05.29.446297; doi: https://doi.org/10.1101/2021.05.29.446297
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