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End-to-end topographic networks as models of cortical map formation and human visual behaviour

Zejin Lu, Adrien Doerig, Victoria Manglano Bosch, Bas Krahmer, Daniel Kaiser, Radoslaw Martin Cichy, Tim C. Kietzmann

2025Nature Human Behaviour16 citationsDOIOpen Access PDF

Abstract

A prominent feature of the primate visual system is its topographic organization. For understanding its origins, its computational role and its behavioural implications, computational models are of central importance. Yet, vision is commonly modelled using convolutional neural networks, which are hard-wired to learn identical features across space and thus lack topography. Here we overcome this limitation by introducing all-topographic neural networks (All-TNNs). All-TNNs develop several features reminiscent of primate topography, including smooth orientation and category selectivity maps, and enhanced processing of regions with task-relevant information. In addition, All-TNNs operate on a low energy budget, suggesting a metabolic benefit of smooth topographic organization. To test our model against behaviour, we collected a dataset of human spatial biases in object recognition and found that All-TNNs significantly outperform control models. All-TNNs thereby offer a promising candidate for modelling primate visual topography and its role in downstream behaviour.

Topics & Concepts

Computer scienceArtificial intelligenceConvolutional neural networkOrientation (vector space)Computational modelTopographic map (neuroanatomy)PrimateFeature (linguistics)Pattern recognition (psychology)Computer visionNeuroscienceVisual cortexBiologyGeometryPhilosophyMathematicsLinguisticsFace Recognition and PerceptionVisual perception and processing mechanismsVisual Attention and Saliency Detection