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Paper detail

Differentially Private Federated Learning with Local Regularization and Sparsification

User-level differential privacy (DP) provides certifiable privacy guarantees to the information that is specific to any user's data in federated learning. Existing methods that ensure user-level DP come at the cost of severe accuracy decrease. In this paper, we study the cause of model performance degradation in federated learning under user-level DP guarantee. We find the key to solving this issue is to naturally restrict the norm of local updates before executing operations that guarantee DP. To this end, we propose two techniques, Bounded Local Update Regularization and Local Update Sparsification, to increase model quality without sacrificing privacy. We provide theoretical analysis on the convergence of our framework and give rigorous privacy guarantees. Extensive experiments show that our framework significantly improves the privacy-utility trade-off over the state-of-the-arts for federated learning with user-level DP guarantee.

preprint2022arXivOpen access
Anda ChengPeisong WangXi Sheryl ZhangJian Cheng
Cryptography and SecurityComputer VisionMachine Learning
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Anda ChengPeisong WangXi Sheryl ZhangJian Cheng

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