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Data-Agnostic Model Poisoning Against Federated Learning: A Graph Autoencoder Approach

Kai Li, Jingjing Zheng, Xin Yuan, Wei Ni, Özgür B. Akan, H. Vincent Poor

2024IEEE Transactions on Information Forensics and Security34 citationsDOIOpen Access PDF

Abstract

This paper proposes a novel, data-agnostic, model poisoning attack on Federated Learning (FL), by designing a new adversarial graph autoencoder (GAE)-based framework. The attack requires no knowledge of FL training data and achieves both effectiveness and undetectability. By listening to the benign local models and the global model, the attacker extracts the graph structural correlations among the benign local models and the training data features substantiating the models. The attacker then adversarially regenerates the graph structural correlations while maximizing the FL training loss, and subsequently generates malicious local models using the adversarial graph structure and the training data features of the benign ones. A new algorithm is designed to iteratively train the malicious local models using GAE and sub-gradient descent. The convergence of FL under attack is rigorously proved, with a considerably large optimality gap. Experiments show that the FL accuracy drops gradually under the proposed attack and existing defense mechanisms fail to detect it. The attack can give rise to an infection across all benign devices, making it a serious threat to FL.

Topics & Concepts

Computer scienceAutoencoderGraphAdversarial systemFederated learningData modelingThreat modelArtificial intelligenceMachine learningTheoretical computer scienceGradient descentData miningDeep learningComputer securityArtificial neural networkDatabasePrivacy-Preserving Technologies in DataAdversarial Robustness in Machine LearningAdvanced Graph Neural Networks
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