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Mathematical Expressiveness of Graph Neural Networks

Author

Listed:
  • Guillaume Lachaud

    (ISEP—Institut Supérieur d’Électronique de Paris, 75006 Paris, France)

  • Patricia Conde-Cespedes

    (ISEP—Institut Supérieur d’Électronique de Paris, 75006 Paris, France)

  • Maria Trocan

    (ISEP—Institut Supérieur d’Électronique de Paris, 75006 Paris, France)

Abstract

Graph Neural Networks (GNNs) are neural networks designed for processing graph data. There has been a lot of focus on recent developments of graph neural networks concerning the theoretical properties of the models, in particular with respect to their mathematical expressiveness, that is, to map different graphs or nodes to different outputs; or, conversely, to map permutations of the same graph to the same output. In this paper, we review the mathematical expressiveness results of graph neural networks. We find that according to their mathematical properties, the GNNs that are more expressive than the standard graph neural networks can be divided into two categories: the models that achieve the highest level of expressiveness, but require intensive computation; and the models that improve the expressiveness of standard graph neural networks by implementing node identification and substructure awareness. Additionally, we present a comparison of existing architectures in terms of their expressiveness. We conclude by discussing the future lines of work regarding the theoretical expressiveness of graph neural networks.

Suggested Citation

  • Guillaume Lachaud & Patricia Conde-Cespedes & Maria Trocan, 2022. "Mathematical Expressiveness of Graph Neural Networks," Mathematics, MDPI, vol. 10(24), pages 1-15, December.
    • Handle: RePEc:gam:jmathe:v:10:y:2022:i:24:p:4770-:d:1004443
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