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Detailed characterization of neural selectivity in free viewing primates

Jacob L. Yates, Shanna Coop, Gabriel Sarch, Ruei-Jr Wu, Daniel A. Butts, Michele Rucci, Jude F. Mitchell

2023Nature Communications30 citationsDOIOpen Access PDF

Abstract

Fixation constraints in visual tasks are ubiquitous in visual and cognitive neuroscience. Despite its widespread use, fixation requires trained subjects, is limited by the accuracy of fixational eye movements, and ignores the role of eye movements in shaping visual input. To overcome these limitations, we developed a suite of hardware and software tools to study vision during natural behavior in untrained subjects. We measured visual receptive fields and tuning properties from multiple cortical areas of marmoset monkeys who freely viewed full-field noise stimuli. The resulting receptive fields and tuning curves from primary visual cortex (V1) and area MT match reported selectivity from the literature which was measured using conventional approaches. We then combined free viewing with high-resolution eye tracking to make the first detailed 2D spatiotemporal measurements of foveal receptive fields in V1. These findings demonstrate the power of free viewing to characterize neural responses in untrained animals while simultaneously studying the dynamics of natural behavior.

Topics & Concepts

Receptive fieldFixation (population genetics)Computer scienceFovealVisual cortexMarmosetEye movementMicrosaccadeNeuroscienceArtificial intelligenceVisual perceptionComputer visionPattern recognition (psychology)PsychologySaccadic maskingPerceptionBiologyPaleontologyGeneRetinalBiochemistryVisual perception and processing mechanismsNeural dynamics and brain functionRetinal Development and Disorders