Poster
Benchmarking Out-of-Distribution Generalization Capabilities of DNN-based Encoding Models for the Ventral Visual Cortex.
Spandan Madan · Will Xiao · Mingran Cao · Hanspeter Pfister · Margaret Livingstone · Gabriel Kreiman
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Abstract
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Fri 13 Dec 11 a.m. PST
— 2 p.m. PST
Abstract:
We characterized the generalization capabilities of DNN-based encoding models when predicting neuronal responses from the visual cortex. We collected MacaqueITBench, a large-scale dataset of neural population responses from the macaque inferior temporal (IT) cortex to over $300,000$ images, comprising $8,233$ unique natural images presented to seven monkeys over $109$ sessions. Using MacaqueITBench, we investigated the impact of distribution shifts on models predicting neural activity by dividing the images into Out-Of-Distribution (OOD) train and test splits. The OOD splits included several different image-computable types including image contrast, hue, intensity, temperature, and saturation. Compared to the performance on in-distribution test images---the conventional way these models have been evaluated---models performed worse at predicting neuronal responses to out-of-distribution images, retaining as little as 20\% of the performance on in-distribution test images. The generalization performance under OOD shifts can be well accounted by a simple image similarity metric---the cosine distance between image representations extracted from a pre-trained object recognition model is a strong predictor of neural predictivity under different distribution shifts. The dataset of images, neuronal firing rate recordings, and computational benchmarks are hosted publicly at: https://drive.google.com/drive/folders/1OZQdPY6km6alH20mu5E6X_9Ke6HnHQAg?usp=share_link.
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