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Efficient coding theory of dynamic attentional modulation

Wiktor Młynarski, Gašper Tkačik

2022PLoS Biology18 citationsDOIOpen Access PDF

Abstract

Activity of sensory neurons is driven not only by external stimuli but also by feedback signals from higher brain areas. Attention is one particularly important internal signal whose presumed role is to modulate sensory representations such that they only encode information currently relevant to the organism at minimal cost. This hypothesis has, however, not yet been expressed in a normative computational framework. Here, by building on normative principles of probabilistic inference and efficient coding, we developed a model of dynamic population coding in the visual cortex. By continuously adapting the sensory code to changing demands of the perceptual observer, an attention-like modulation emerges. This modulation can dramatically reduce the amount of neural activity without deteriorating the accuracy of task-specific inferences. Our results suggest that a range of seemingly disparate cortical phenomena such as intrinsic gain modulation, attention-related tuning modulation, and response variability could be manifestations of the same underlying principles, which combine efficient sensory coding with optimal probabilistic inference in dynamic environments.

Topics & Concepts

Sensory systemInferenceNeural codingPerceptionCoding (social sciences)BiologyProbabilistic logicENCODENeurosciencePopulationInformation theoryComputer scienceArtificial intelligenceMathematicsDemographyBiochemistryStatisticsGeneSociologyNeural dynamics and brain functionVisual perception and processing mechanismsFace Recognition and Perception
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