Sample-Independent Federated Learning Backdoor Attack

In federated learning, backdoor attacks embed triggers in the adversarial client's data to inject a backdoor into the model. To evade detection through sample analysis, non-sample-modifying backdoor attack methods based on dropout have been developed. However, these methods struggle to covertly...

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Veröffentlicht in:arXiv.org 2024-08
Hauptverfasser: Xu, Weida, Xu, Yang, Zhang, Sicong
Format: Artikel
Sprache:eng
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Zusammenfassung:In federated learning, backdoor attacks embed triggers in the adversarial client's data to inject a backdoor into the model. To evade detection through sample analysis, non-sample-modifying backdoor attack methods based on dropout have been developed. However, these methods struggle to covertly utilize dropout in evaluation mode, thus hindering their deployment in real-world scenarios. To address these, this paper introduces GhostB, a novel approach to federated learning backdoor attacks that neither alters samples nor relies on dropout. This method employs the behavior of neurons producing specific values as triggers. By mapping these neuronal values to categories specified by the adversary, the backdoor is implanted and activated when particular feature values are detected at designated neurons. Our experiments conducted on TIMIT, LibriSpeech, and VoxCeleb2 databases in both Closed Set Identification (CSI) and Open Set Identification (OSI) scenarios demonstrate that GhostB achieves a 100% success rate upon activation, with this rate maintained across experiments involving 1 to 50 ghost neurons. This paper investigates how the dispersion of neurons and their depth within hidden layers affect the success rate, revealing that increased dispersion and positioning of neurons can significantly decrease effectiveness, potentially rendering the attack unsuccessful.
ISSN:2331-8422