English

GraphPL: Leveraging GNN for Efficient and Robust Modalities Imputation in Patchwork Learning

Machine Learning 2026-04-29 v1 Artificial Intelligence

Abstract

Current research on distributed multi-modal learning typically assumes that clients can access complete information across all modalities, which may not hold in practice. In this paper, we explore patchwork learning, in which the modalities available to different clients vary, and the objective is to impute the missing modalities for each client in an unsupervised manner. Existing methods are shown not to fully utilize the modality information as they tend to rely on only a subset of the observed modalities. To address this issue, we propose GraphPL, which combines graph neural networks with patchwork learning to flexibly integrate all observed modalities and remains robust with noisy inputs. Experimental results show that GraphPL achieves SOTA performance on benchmark datasets. Our results on real-world distributed electronic health record dataset show GraphPL learns strong downstream features and enables tasks like disease prediction via superior modality imputation.

Keywords

Cite

@article{arxiv.2604.25352,
  title  = {GraphPL: Leveraging GNN for Efficient and Robust Modalities Imputation in Patchwork Learning},
  author = {Xingjian Hu and Zuoyu Yan and Jianhua Zhu and Liangcai Gao and Fei Wang and Tengfei Ma},
  journal= {arXiv preprint arXiv:2604.25352},
  year   = {2026}
}

Comments

Accepted at ICASSP 2026. This is a preprint of the work

R2 v1 2026-07-01T12:38:44.262Z