A Theory of Link Prediction via Relational Weisfeiler-Leman
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Graph neural networks are prominent models for representation learning over graph-structured data. While the capabilities and limitations of these models are well-understood for simple graphs, our understanding remains highly incomplete in the context of knowledge graphs. The goal of this work is to provide a systematic understanding of the landscape of graph neural networks for knowledge graphs pertaining the prominent task of link prediction. Our analysis entails a unifying perspective on seemingly unrelated models, and unlocks a series of other models. The expressive power of various models is characterized via a corresponding relational Weisfeiler-Leman algorithm with different initialization regimes. This analysis is extended to provide a precise logical characterization of the class of functions captured by a class of graph neural networks. Our theoretical findings explain the benefits of some widely employed practical design choices, which are validated empirically.
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