AI-guided stimuli discovery and generation to optimize facial emotion perception studies in autism
Abstract
Understanding perceptual differences between autistic and neurotypical adults requires behavioral assays that are sensitive, reliable, and mechanistically informative.
Facial emotion perception is a useful test case because group differences have been reported, but findings vary across studies.
Here we show that this variability may reflect image-level sparsity: autistic-neurotypical differences in emotion judgments were concentrated in a small subset of diagnostic facial expressions rather than spread uniformly across stimuli.
We trained population-specific artificial neural network models to predict image-level judgments for autistic and neurotypical participants, then used these models to select novel faces predicted to maximize group separation.
In an independent cohort, model-selected images produced larger behavioral differences than matched random images.
We then used the same models with a generative adversarial network to transform diagnostic images toward greater predicted group agreement.
In phenotype-matched validation, synthesized images reduced behavioral separation relative to their matched originals.
These results establish a model-guided framework for discovering and transforming stimuli that reveal population-specific perceptual differences.
More broadly, they show how behavioral phenotyping can move beyond averaging across fixed stimulus sets toward optimized assays that identify the conditions under which neurodivergent perception diverges or converges.
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