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Graph representation learning: a survey

Fenxiao Chen, Yun-Cheng Wang, Bin Wang, C.-C. Jay Kuo

2020APSIPA Transactions on Signal and Information Processing226 citationsDOIOpen Access PDF

Abstract

Research on graph representation learning has received a lot of attention in recent years since many data in real-world applications come in form of graphs. High-dimensional graph data are often in irregular form, which makes them more difficult to analyze than image/video/audio data defined on regular lattices. Various graph embedding techniques have been developed to convert the raw graph data into a low-dimensional vector representation while preserving the intrinsic graph properties. In this review, we first explain the graph embedding task and its challenges. Next, we review a wide range of graph embedding techniques with insights. Then, we evaluate several state-of-the-art methods against small and large datasets and compare their performance. Finally, potential applications and future directions are presented.

Topics & Concepts

Computer scienceGraphTheoretical computer scienceExternal Data RepresentationEmbeddingGraph embeddingRepresentation (politics)Graph databaseArtificial intelligenceRaw dataGraph propertyIntersection graphRange (aeronautics)Data modelingData structureGraph theoryClique-widthMathematicsData miningAdvanced Graph Neural NetworksMachine Learning in HealthcareGraph Theory and Algorithms
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