FLIS: Clustered Federated Learning Via Inference Similarity for Non-IID Data Distribution

Mahdi Morafah;Saeed Vahidian;Weijia Wang;Bill Lin
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引用次数: 11

Abstract

Conventional federated learning (FL) approaches are ineffective in scenarios where clients have significant differences in the distributions of their local data. The Non-IID data distribution in the client data causes a drift in the local model updates from the global optima, which significantly impacts the performance of the trained models. In this article, we present a new algorithm called FLIS that aims to address this problem by grouping clients into clusters that have jointly trainable data distributions. This is achieved by comparing the inference similarity of client models. Our proposed framework captures settings where different groups of users may have their own objectives (learning tasks), but by aggregating their data with others in the same cluster (same learning task), superior models can be derived via more efficient and personalized federated learning. We present experimental results to demonstrate the benefits of FLIS over the state-of-the-art approaches on the CIFAR-100/10, SVHN, and FMNIST datasets. Our code is available at https://github.com/MMorafah/FLIS .
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FLIS:基于推理相似性的非IID数据分布集群联合学习
传统的联合学习(FL)方法在客户端的本地数据分布存在显著差异的情况下是无效的。客户端数据中的非IID数据分布会导致局部模型更新偏离全局最优值,这会显著影响训练模型的性能。在本文中,我们提出了一种称为FLIS的新算法,旨在通过将客户端分组到具有可联合训练的数据分布的集群中来解决这个问题。这是通过比较客户端模型的推理相似性来实现的。我们提出的框架捕获了不同用户组可能有自己目标(学习任务)的设置,但通过将他们的数据与同一集群中的其他用户聚合(相同的学习任务),可以通过更高效和个性化的联合学习来推导出更优的模型。我们在CIFAR-100/10、SVHN和FMNIST数据集上展示了FLIS相对于最先进方法的优势。我们的代码可在https://github.com/MMorafah/FLIS.
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