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Main Authors: Hamblin, Chris, Fel, Thomas, Saha, Srijani, Konkle, Talia, Alvarez, George
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2402.10039
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author Hamblin, Chris
Fel, Thomas
Saha, Srijani
Konkle, Talia
Alvarez, George
author_facet Hamblin, Chris
Fel, Thomas
Saha, Srijani
Konkle, Talia
Alvarez, George
contents Efforts to decode neural network vision models necessitate a comprehensive grasp of both the spatial and semantic facets governing feature responses within images. Most research has primarily centered around attribution methods, which provide explanations in the form of heatmaps, showing where the model directs its attention for a given feature. However, grasping 'where' alone falls short, as numerous studies have highlighted the limitations of those methods and the necessity to understand 'what' the model has recognized at the focal point of its attention. In parallel, 'Feature visualization' offers another avenue for interpreting neural network features. This approach synthesizes an optimal image through gradient ascent, providing clearer insights into 'what' features respond to. However, feature visualizations only provide one global explanation per feature; they do not explain why features activate for particular images. In this work, we introduce a new method to the interpretability tool-kit, 'feature accentuation', which is capable of conveying both where and what in arbitrary input images induces a feature's response. At its core, feature accentuation is image-seeded (rather than noise-seeded) feature visualization. We find a particular combination of parameterization, augmentation, and regularization yields naturalistic visualizations that resemble the seed image and target feature simultaneously. Furthermore, we validate these accentuations are processed along a natural circuit by the model. We make our precise implementation of feature accentuation available to the community as the Faccent library, an extension of Lucent.
format Preprint
id arxiv_https___arxiv_org_abs_2402_10039
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Feature Accentuation: Revealing 'What' Features Respond to in Natural Images
Hamblin, Chris
Fel, Thomas
Saha, Srijani
Konkle, Talia
Alvarez, George
Computer Vision and Pattern Recognition
Efforts to decode neural network vision models necessitate a comprehensive grasp of both the spatial and semantic facets governing feature responses within images. Most research has primarily centered around attribution methods, which provide explanations in the form of heatmaps, showing where the model directs its attention for a given feature. However, grasping 'where' alone falls short, as numerous studies have highlighted the limitations of those methods and the necessity to understand 'what' the model has recognized at the focal point of its attention. In parallel, 'Feature visualization' offers another avenue for interpreting neural network features. This approach synthesizes an optimal image through gradient ascent, providing clearer insights into 'what' features respond to. However, feature visualizations only provide one global explanation per feature; they do not explain why features activate for particular images. In this work, we introduce a new method to the interpretability tool-kit, 'feature accentuation', which is capable of conveying both where and what in arbitrary input images induces a feature's response. At its core, feature accentuation is image-seeded (rather than noise-seeded) feature visualization. We find a particular combination of parameterization, augmentation, and regularization yields naturalistic visualizations that resemble the seed image and target feature simultaneously. Furthermore, we validate these accentuations are processed along a natural circuit by the model. We make our precise implementation of feature accentuation available to the community as the Faccent library, an extension of Lucent.
title Feature Accentuation: Revealing 'What' Features Respond to in Natural Images
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2402.10039