FedMHO: Heterogeneous One-Shot Federated Learning Towards Resource-Constrained Clients

Federated Learning (FL) is increasingly adopted in edge computing scenarios, where a large number of heterogeneous clients operate under constrained or sufficient resources. The iterative training process of FL incurs considerable computation and communication overhead, which is unfriendly for resource-constrained devices. One-shot FL is a promising approach to addressing communication issues inherent in conventional FL, and model-heterogeneous FL solves the problem of diverse computing resources across clients. However, existing methods face challenges in effectively managing model-heterogeneous one-shot FL, often leading to unsatisfactory global model performance or reliance on auxiliary datasets. To address these challenges, we propose a novel FL framework named FedMHO, which leverages deep classification models on resource-sufficient clients and lightweight generative models on resource-constrained devices. On the server side, FedMHO involves a two-stage process that includes data generation and knowledge fusion. Furthermore, we introduce FedMHO-MD and FedMHO-SD to mitigate the knowledge-forgetting problem during the knowledge fusion stage, and an unsupervised data optimization solution to improve the quality of synthetic samples. Comprehensive experiments demonstrate the effectiveness of our methods, as they outperform state-of-the-art baselines in various experimental setups.

Citation

D. Yao, T. Liu, Y. Shi, Z. Xu, "FedMHO: Heterogeneous One-Shot Federated Learning Towards Resource-Constrained Clients," 2026, pp. 5686-5697.

Conference

ACM Web Conference 2026

Keywords

46 Information and Computing Sciences, 4611 Machine Learning

Source

ACM Web Conference 2026

Publisher

Association for Computing Machinery

DOI

10.1145/3774904.3792743

Additional links

https://dl.acm.org/doi/10.1145/3774904.3792743