2 research outputs found
A Network Science perspective of Graph Convolutional Networks: A survey
The mining and exploitation of graph structural information have been the
focal points in the study of complex networks. Traditional structural measures
in Network Science focus on the analysis and modelling of complex networks from
the perspective of network structure, such as the centrality measures, the
clustering coefficient, and motifs and graphlets, and they have become basic
tools for studying and understanding graphs. In comparison, graph neural
networks, especially graph convolutional networks (GCNs), are particularly
effective at integrating node features into graph structures via neighbourhood
aggregation and message passing, and have been shown to significantly improve
the performances in a variety of learning tasks. These two classes of methods
are, however, typically treated separately with limited references to each
other. In this work, aiming to establish relationships between them, we provide
a network science perspective of GCNs. Our novel taxonomy classifies GCNs from
three structural information angles, i.e., the layer-wise message aggregation
scope, the message content, and the overall learning scope. Moreover, as a
prerequisite for reviewing GCNs via a network science perspective, we also
summarise traditional structural measures and propose a new taxonomy for them.
Finally and most importantly, we draw connections between traditional
structural approaches and graph convolutional networks, and discuss potential
directions for future research