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Bibliographic Details
Main Authors: Mahner, Florian P., Muttenthaler, Lukas, Güçlü, Umut, Hebart, Martin N.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2406.19087
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author Mahner, Florian P.
Muttenthaler, Lukas
Güçlü, Umut
Hebart, Martin N.
author_facet Mahner, Florian P.
Muttenthaler, Lukas
Güçlü, Umut
Hebart, Martin N.
contents Determining the similarities and differences between humans and artificial intelligence (AI) is an important goal both in computational cognitive neuroscience and machine learning, promising a deeper understanding of human cognition and safer, more reliable AI systems. Much previous work comparing representations in humans and AI has relied on global, scalar measures to quantify their alignment. However, without explicit hypotheses, these measures only inform us about the degree of alignment, not the factors that determine it. To address this challenge, we propose a generic framework to compare human and AI representations, based on identifying latent representational dimensions underlying the same behavior in both domains. Applying this framework to humans and a deep neural network (DNN) model of natural images revealed a low-dimensional DNN embedding of both visual and semantic dimensions. In contrast to humans, DNNs exhibited a clear dominance of visual over semantic properties, indicating divergent strategies for representing images. While in-silico experiments showed seemingly consistent interpretability of DNN dimensions, a direct comparison between human and DNN representations revealed substantial differences in how they process images. By making representations directly comparable, our results reveal important challenges for representational alignment and offer a means for improving their comparability.
format Preprint
id arxiv_https___arxiv_org_abs_2406_19087
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Dimensions underlying the representational alignment of deep neural networks with humans
Mahner, Florian P.
Muttenthaler, Lukas
Güçlü, Umut
Hebart, Martin N.
Computer Vision and Pattern Recognition
Artificial Intelligence
Machine Learning
Quantitative Methods
Determining the similarities and differences between humans and artificial intelligence (AI) is an important goal both in computational cognitive neuroscience and machine learning, promising a deeper understanding of human cognition and safer, more reliable AI systems. Much previous work comparing representations in humans and AI has relied on global, scalar measures to quantify their alignment. However, without explicit hypotheses, these measures only inform us about the degree of alignment, not the factors that determine it. To address this challenge, we propose a generic framework to compare human and AI representations, based on identifying latent representational dimensions underlying the same behavior in both domains. Applying this framework to humans and a deep neural network (DNN) model of natural images revealed a low-dimensional DNN embedding of both visual and semantic dimensions. In contrast to humans, DNNs exhibited a clear dominance of visual over semantic properties, indicating divergent strategies for representing images. While in-silico experiments showed seemingly consistent interpretability of DNN dimensions, a direct comparison between human and DNN representations revealed substantial differences in how they process images. By making representations directly comparable, our results reveal important challenges for representational alignment and offer a means for improving their comparability.
title Dimensions underlying the representational alignment of deep neural networks with humans
topic Computer Vision and Pattern Recognition
Artificial Intelligence
Machine Learning
Quantitative Methods
url https://arxiv.org/abs/2406.19087