A Survey on Heterogeneous Federated Learning
It provides a foundational overview for researchers and practitioners dealing with privacy-preserving collaborative learning across diverse and non-IID data sources, but it is incremental as it synthesizes existing knowledge rather than introducing new breakthroughs.
This survey addresses the problem of heterogeneity in federated learning by comprehensively investigating its various aspects, including data space, statistical, system, and model heterogeneity, and proposes a taxonomy and methodologies to tackle these challenges.
Federated learning (FL) has been proposed to protect data privacy and virtually assemble the isolated data silos by cooperatively training models among organizations without breaching privacy and security. However, FL faces heterogeneity from various aspects, including data space, statistical, and system heterogeneity. For example, collaborative organizations without conflict of interest often come from different areas and have heterogeneous data from different feature spaces. Participants may also want to train heterogeneous personalized local models due to non-IID and imbalanced data distribution and various resource-constrained devices. Therefore, heterogeneous FL is proposed to address the problem of heterogeneity in FL. In this survey, we comprehensively investigate the domain of heterogeneous FL in terms of data space, statistical, system, and model heterogeneity. We first give an overview of FL, including its definition and categorization. Then, We propose a precise taxonomy of heterogeneous FL settings for each type of heterogeneity according to the problem setting and learning objective. We also investigate the transfer learning methodologies to tackle the heterogeneity in FL. We further present the applications of heterogeneous FL. Finally, we highlight the challenges and opportunities and envision promising future research directions toward new framework design and trustworthy approaches.