Litcius/Paper detail

Tuning landscapes of the ventral stream

Binxu Wang, Carlos R. Ponce

2022Cell Reports18 citationsDOIOpen Access PDF

Abstract

A goal in visual neuroscience is to explain how neurons respond to natural scenes. However, neurons are generally tested using simpler stimuli, often because they can be transformed smoothly, allowing the measurement of tuning functions (i.e., response peaks and slopes). Here, we test the idea that all classic tuning curves can be viewed as slices of a higher-dimensional tuning landscape. We use activation-maximizing stimuli ("prototypes") as landmarks in a generative image space and map tuning functions around these peaks. We find that neurons show smooth bell-shaped tuning consistent with radial basis functions, spanning a vast image transformation range, with systematic differences in landscape geometry from V1 to inferotemporal cortex. By modeling these trends, we infer that neurons in the higher visual cortex have higher intrinsic feature dimensionality. Overall, these results suggest that visual neurons are better viewed as signaling distances to prototypes on an image manifold.

Topics & Concepts

Visual cortexNeuroscienceCurse of dimensionalityComputer scienceVisual spaceArtificial intelligenceTransformation (genetics)Generative modelComputer visionGenerative grammarPattern recognition (psychology)BiologyGenePerceptionBiochemistryNeural dynamics and brain functionVisual perception and processing mechanismsNeurobiology and Insect Physiology Research