Beyond the Federation: Topology-aware Federated Learning for Generalization to Unseen Clients
July 06, 2024 ยท Declared Dead ยท ๐ International Conference on Machine Learning
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Authors
Mengmeng Ma, Tang Li, Xi Peng
arXiv ID
2407.04949
Category
cs.LG: Machine Learning
Cross-listed
cs.DC
Citations
7
Venue
International Conference on Machine Learning
Last Checked
4 months ago
Abstract
Federated Learning is widely employed to tackle distributed sensitive data. Existing methods primarily focus on addressing in-federation data heterogeneity. However, we observed that they suffer from significant performance degradation when applied to unseen clients for out-of-federation (OOF) generalization. The recent attempts to address generalization to unseen clients generally struggle to scale up to large-scale distributed settings due to high communication or computation costs. Moreover, methods that scale well often demonstrate poor generalization capability. To achieve OOF-resiliency in a scalable manner, we propose Topology-aware Federated Learning (TFL) that leverages client topology - a graph representing client relationships - to effectively train robust models against OOF data. We formulate a novel optimization problem for TFL, consisting of two key modules: Client Topology Learning, which infers the client relationships in a privacy-preserving manner, and Learning on Client Topology, which leverages the learned topology to identify influential clients and harness this information into the FL optimization process to efficiently build robust models. Empirical evaluation on a variety of real-world datasets verifies TFL's superior OOF robustness and scalability.
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