Litcius/Paper detail

Neural knowledge assembly in humans and neural networks

Stephanie Nelli, Lukas Braun, Tsvetomira Dumbalska, Andrew Saxe, Christopher Summerfield

2023Neuron58 citationsDOIOpen Access PDF

Abstract

Human understanding of the world can change rapidly when new information comes to light, such as when a plot twist occurs in a work of fiction. This flexible "knowledge assembly" requires few-shot reorganization of neural codes for relations among objects and events. However, existing computational theories are largely silent about how this could occur. Here, participants learned a transitive ordering among novel objects within two distinct contexts before exposure to new knowledge that revealed how they were linked. Blood-oxygen-level-dependent (BOLD) signals in dorsal frontoparietal cortical areas revealed that objects were rapidly and dramatically rearranged on the neural manifold after minimal exposure to linking information. We then adapt online stochastic gradient descent to permit similar rapid knowledge assembly in a neural network model.

Topics & Concepts

Artificial neural networkComputer scienceDorsumTransitive relationNeural activityArtificial intelligenceCognitive sciencePsychologyNeuroscienceBiologyMathematicsCombinatoricsAnatomyNeural dynamics and brain functionNeural Networks and ApplicationsVisual perception and processing mechanisms