Heterogeneous Graph Contrastive Learning with Spectral Augmentation

• URL: http://arxiv.org/abs/2407.00708v1
• Date: Sun, 30 Jun 2024 14:20:12 GMT
• Title: Heterogeneous Graph Contrastive Learning with Spectral Augmentation
• Authors: Jing Zhang, Xiaoqian Jiang, Yingjie Xie, Cangqi Zhou,
• Abstract summary: This paper introduces a spectral-enhanced graph contrastive learning model (SHCL) for the first time in heterogeneous graph neural networks. The proposed model learns an adaptive topology augmentation scheme through the heterogeneous graph itself. Experimental results on multiple real-world datasets demonstrate substantial advantages of the proposed model.
• Score: 15.231689595121553
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Heterogeneous graphs can well describe the complex entity relationships in the real world. For example, online shopping networks contain multiple physical types of consumers and products, as well as multiple relationship types such as purchasing and favoriting. More and more scholars pay attention to this research because heterogeneous graph representation learning shows strong application potential in real-world scenarios. However, the existing heterogeneous graph models use data augmentation techniques to enhance the use of graph structure information, which only captures the graph structure information from the spatial topology, ignoring the information displayed in the spectrum dimension of the graph structure. To address the issue that heterogeneous graph representation learning methods fail to model spectral information, this paper introduces a spectral-enhanced graph contrastive learning model (SHCL) and proposes a spectral augmentation algorithm for the first time in heterogeneous graph neural networks. The proposed model learns an adaptive topology augmentation scheme through the heterogeneous graph itself, disrupting the structural information of the heterogeneous graph in the spectrum dimension, and ultimately improving the learning effect of the model. Experimental results on multiple real-world datasets demonstrate substantial advantages of the proposed model.

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