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Main Authors: Liu, Xinyu, Zhang, Xu, Chen, Can, Wang, Ren
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.21923
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author Liu, Xinyu
Zhang, Xu
Chen, Can
Wang, Ren
author_facet Liu, Xinyu
Zhang, Xu
Chen, Can
Wang, Ren
contents Understanding how backdoor data influences neural network training dynamics remains a complex and underexplored challenge. In this paper, we present a rigorous analysis of the impact of backdoor data on the learning process, with a particular focus on the distinct behaviors between the target class and other clean classes. Leveraging the Information Bottleneck (IB) principle connected with clustering of internal representation, We find that backdoor attacks create unique mutual information (MI) signatures, which evolve across training phases and differ based on the attack mechanism. Our analysis uncovers a surprising trade-off: visually conspicuous attacks like BadNets can achieve high stealthiness from an information-theoretic perspective, integrating more seamlessly into the model than many visually imperceptible attacks. Building on these insights, we propose a novel, dynamics-based stealthiness metric that quantifies an attack's integration at the model level. We validate our findings and the proposed metric across multiple datasets and diverse attack types, offering a new dimension for understanding and evaluating backdoor threats. Our code is available in: https://github.com/XinyuLiu71/Information_Bottleneck_Backdoor.git.
format Preprint
id arxiv_https___arxiv_org_abs_2511_21923
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Exploring Dynamic Properties of Backdoor Training Through Information Bottleneck
Liu, Xinyu
Zhang, Xu
Chen, Can
Wang, Ren
Machine Learning
Artificial Intelligence
Understanding how backdoor data influences neural network training dynamics remains a complex and underexplored challenge. In this paper, we present a rigorous analysis of the impact of backdoor data on the learning process, with a particular focus on the distinct behaviors between the target class and other clean classes. Leveraging the Information Bottleneck (IB) principle connected with clustering of internal representation, We find that backdoor attacks create unique mutual information (MI) signatures, which evolve across training phases and differ based on the attack mechanism. Our analysis uncovers a surprising trade-off: visually conspicuous attacks like BadNets can achieve high stealthiness from an information-theoretic perspective, integrating more seamlessly into the model than many visually imperceptible attacks. Building on these insights, we propose a novel, dynamics-based stealthiness metric that quantifies an attack's integration at the model level. We validate our findings and the proposed metric across multiple datasets and diverse attack types, offering a new dimension for understanding and evaluating backdoor threats. Our code is available in: https://github.com/XinyuLiu71/Information_Bottleneck_Backdoor.git.
title Exploring Dynamic Properties of Backdoor Training Through Information Bottleneck
topic Machine Learning
Artificial Intelligence
url https://arxiv.org/abs/2511.21923