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Abstract
Numerosity perception is thought to be foundational to mathematical learning, but its computational bases are strongly debated. Some investigators argue that humans are endowed with a specialized system supporting numerical representations; others argue that visual numerosity is estimated using continuous magnitudes, such as density or area, which usually co-vary with number. Here we reconcile these contrasting perspectives by testing deep neural networks on the same numerosity comparison task that was administered to human participants, using a stimulus space that allows the precise measurement of the contribution of non-numerical features. Our model accurately simulates the psychophysics of numerosity perception and the associated developmental changes: discrimination is driven by numerosity, but non-numerical features also have a significant impact, especially early during development. Representational similarity analysis further highlights that both numerosity and continuous magnitudes are spontaneously encoded in deep networks even when no task has to be carried out, suggesting that numerosity is a major, salient property of our visual environment.
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Details
1 University of Padova, Department of General Psychology and Padova Neuroscience Center, Padova, Italy (GRID:grid.5608.b) (ISNI:0000 0004 1757 3470); University of Padova, Department of Information Engineering, Padova, Italy (GRID:grid.5608.b) (ISNI:0000 0004 1757 3470)
2 University of Padova, Department of General Psychology and Padova Neuroscience Center, Padova, Italy (GRID:grid.5608.b) (ISNI:0000 0004 1757 3470)
3 Ghent University, Department of Experimental Psychology, Ghent, Belgium (GRID:grid.5342.0) (ISNI:0000 0001 2069 7798)
4 University of Padova, Department of General Psychology and Padova Neuroscience Center, Padova, Italy (GRID:grid.5608.b) (ISNI:0000 0004 1757 3470); IRCCS San Camillo Hospital, Venice-Lido, Italy (GRID:grid.416308.8) (ISNI:0000 0004 1805 3485)