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Numerosity tuning in human association cortices and local image contrast representations in early visual cortex

Jacob M. Paul, Martijn van Ackooij, Tuomas C. ten Cate, Ben M. Harvey

2022Nature Communications70 citationsDOIOpen Access PDF

Abstract

Human early visual cortex response amplitudes monotonically increase with numerosity (object number), regardless of object size and spacing. However, numerosity is typically considered a high-level visual or cognitive feature, while early visual responses follow image contrast in the spatial frequency domain. We find that, at fixed contrast, aggregate Fourier power (at all orientations and spatial frequencies) follows numerosity closely but nonlinearly with little effect of object size, spacing or shape. This would allow straightforward numerosity estimation from spatial frequency domain image representations. Using 7T fMRI, we show monotonic responses originate in primary visual cortex (V1) at the stimulus's retinotopic location. Responses here and in neural network models follow aggregate Fourier power more closely than numerosity. Truly numerosity tuned responses emerge after lateral occipital cortex and are independent of retinotopic location. We propose numerosity's straightforward perception and neural responses may result from the pervasive spatial frequency analyses of early visual processing.

Topics & Concepts

Numerosity adaptation effectVisual cortexSpatial frequencyContrast (vision)Visual perceptionVisual processingNeuroscienceComputer scienceReceptive fieldArtificial intelligenceCognitive neuroscience of visual object recognitionPattern recognition (psychology)CognitionPerceptionPsychologyObject (grammar)PhysicsOpticsCognitive and developmental aspects of mathematical skillsVisual perception and processing mechanismsLeaf Properties and Growth Measurement
Numerosity tuning in human association cortices and local image contrast representations in early visual cortex | Litcius