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Predictions enable top-down pattern separation in the macaque face-processing hierarchy

Tarana Nigam, Caspar M. Schwiedrzik

2024Nature Communications15 citationsDOIOpen Access PDF

Abstract

Distinguishing faces requires well distinguishable neural activity patterns. Contextual information may separate neural representations, leading to enhanced identity recognition. Here, we use functional magnetic resonance imaging to investigate how predictions derived from contextual information affect the separability of neural activity patterns in the macaque face-processing system, a 3-level processing hierarchy in ventral visual cortex. We find that in the presence of predictions, early stages of this hierarchy exhibit well separable and high-dimensional neural geometries resembling those at the top of the hierarchy. This is accompanied by a systematic shift of tuning properties from higher to lower areas, endowing lower areas with higher-order, invariant representations instead of their feedforward tuning properties. Thus, top-down signals dynamically transform neural representations of faces into separable and high-dimensional neural geometries. Our results provide evidence how predictive context transforms flexible representational spaces to optimally use the computational resources provided by cortical processing hierarchies for better and faster distinction of facial identities.

Topics & Concepts

HierarchyMacaqueComputer scienceFunctional magnetic resonance imagingArtificial neural networkInvariant (physics)Context (archaeology)Artificial intelligenceSeparable spacePattern recognition (psychology)Face (sociological concept)NeurosciencePsychologyBiologyMathematicsSocial scienceSociologyMarket economyEconomicsPaleontologyMathematical physicsMathematical analysisFace Recognition and PerceptionNeural dynamics and brain functionVisual perception and processing mechanisms
Predictions enable top-down pattern separation in the macaque face-processing hierarchy | Litcius