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When Heterophily Meets Heterogeneous Graphs: Latent Graphs Guided Unsupervised Representation Learning

Zhixiang Shen, Zhao Kang

2025IEEE Transactions on Neural Networks and Learning Systems27 citationsDOI

Abstract

Unsupervised heterogeneous graph representation learning (UHGRL) has gained increasing attention due to its significance in handling practical graphs without labels. However, heterophily has been largely ignored, despite its ubiquitous presence in real-world heterogeneous graphs. In this article, we define semantic heterophily and propose an innovative framework called latent graphs guided unsupervised representation learning (LatGRL) to handle this problem. First, we develop a similarity mining method that couples global structures and attributes, enabling the construction of fine-grained homophilic and heterophilic latent graphs (LGs) to guide the representation learning. Moreover, we propose an adaptive dual-frequency semantic fusion mechanism to address the problem of node-level semantic heterophily. To cope with the massive scale of real-world data, we further design a scalable implementation. Extensive experiments on benchmark datasets validate the effectiveness and efficiency of our proposed framework. The source code and datasets have been made available at https://github.com/zxlearningdeep/LatGRL.

Topics & Concepts

Computer scienceRepresentation (politics)Artificial intelligenceFeature learningMachine learningLawPoliticsPolitical scienceAdvanced Graph Neural NetworksTopic Modeling