Precision Collaboration for Federated Learning
Keywords: federated learning, personalized federated learning
TL;DR: This paper investigates a precision collaboration mechanism for federated learning.
Abstract: Inherent heterogeneity of local data distributions, which causes inefficient model learning and significant degradation of model performance, has been a key challenge in Federated Learning (FL). So far, plenty of efforts have focused on addressing data heterogeneity by relying on a hypothetical clustering structure or a consistent information sharing mechanism. However, because of the diversity of the real-world local data, these assumptions may be largely violated. In this work, we argue that information sharing is mostly fragmented in the federated network in reality. More specifically, the distribution overlaps are not consistent but scattered in local clients. In this work, we propose the concept ``Precision Collaboration'' which refers to learning from the informative overlaps precisely while avoiding the potential negative transfer induced by others. In particular, we propose to infer the local data manifolds and estimate the exact local data density simultaneously. The learned manifold aims to precisely identify the overlaps from other clients, and the estimated likelihood allows to generate samples from the manifold in an optimal sampling density. Experiments show that our proposed PCFL significantly overcomes baselines on benchmarks and a real-world clinical scenario.
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Please Choose The Closest Area That Your Submission Falls Into: Deep Learning and representational learning
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