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Variability of visual field maps in human early extrastriate cortex challenges the canonical model of organization of V2 and V3
View ORCID ProfileFernanda L. Ribeiro, View ORCID ProfileAshley York, View ORCID ProfileElizabeth Zavitz, View ORCID ProfileSteffen Bollmann, View ORCID ProfileMarcello G. P. Rosa, View ORCID ProfileAlexander M. Puckett
doi: https://doi.org/10.1101/2022.10.16.511648
Fernanda L. Ribeiro
aSchool of Psychology, The University of Queensland; Brisbane QLD 4072; Australia
bQueensland Brain Institute, The University of Queensland; Brisbane QLD 4072; Australia
Ashley York
aSchool of Psychology, The University of Queensland; Brisbane QLD 4072; Australia
bQueensland Brain Institute, The University of Queensland; Brisbane QLD 4072; Australia
Elizabeth Zavitz
cDepartment of Physiology, Monash University; Clayton VIC 3800; Australia
dNeuroscience Program, Biomedicine Discovery Institute; Monash University; Clayton VIC 3800; Australia
Steffen Bollmann
eSchool of Information Technology and Electrical Engineering, The University of Queensland; Brisbane QLD 4072; Australia
Marcello G. P. Rosa
cDepartment of Physiology, Monash University; Clayton VIC 3800; Australia
dNeuroscience Program, Biomedicine Discovery Institute; Monash University; Clayton VIC 3800; Australia
Alexander M. Puckett
aSchool of Psychology, The University of Queensland; Brisbane QLD 4072; Australia
bQueensland Brain Institute, The University of Queensland; Brisbane QLD 4072; Australia
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Posted October 18, 2022.
Variability of visual field maps in human early extrastriate cortex challenges the canonical model of organization of V2 and V3
Fernanda L. Ribeiro, Ashley York, Elizabeth Zavitz, Steffen Bollmann, Marcello G. P. Rosa, Alexander M. Puckett
bioRxiv 2022.10.16.511648; doi: https://doi.org/10.1101/2022.10.16.511648
Variability of visual field maps in human early extrastriate cortex challenges the canonical model of organization of V2 and V3
Fernanda L. Ribeiro, Ashley York, Elizabeth Zavitz, Steffen Bollmann, Marcello G. P. Rosa, Alexander M. Puckett
bioRxiv 2022.10.16.511648; doi: https://doi.org/10.1101/2022.10.16.511648
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