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Challenges and Approaches for Mitigating Byzantine Attacks in Federated Learning

Junyu Shi, Wei Wan, Shengshan Hu, Jianrong Lu, Leo Yu Zhang

202291 citationsDOI

Abstract

Recently emerged federated learning (FL) is an attractive distributed learning framework in which numerous wireless end-user devices can train a global model with the data remained autochthonous. Compared with the traditional machine learning framework that collects user data for centralized storage, which brings huge communication burden and concerns about data privacy, this approach can not only save the network bandwidth but also protect the data privacy. Despite the promising prospect, Byzantine attack, an intractable threat in conventional distributed network, is discovered to be rather efficacious against FL as well. In this paper, we conduct a comprehensive investigation of the state-of-the-art strategies for defending against Byzantine attacks in FL. We first provide a taxonomy for the existing defense solutions according to the techniques they used, followed by an across-the-board comparison and discussion. Then we propose a new Byzantine attack method called weight attack to defeat those defense schemes, and conduct experiments to demonstrate its threat. The results show that existing defense solutions, although abundant, are still far from fully protecting FL. Finally, we indicate possible countermeasures for weight attack, and highlight several challenges and future research directions for mitigating Byzantine attacks in FL.

Topics & Concepts

Computer scienceByzantine fault toleranceComputer securityFederated learningByzantine architectureDistributed computingAncient historyHistoryFault tolerancePrivacy-Preserving Technologies in DataCryptography and Data SecurityAdversarial Robustness in Machine Learning