摘要
Graph neural networks(GNNs)have achieved remarkable performance in a variety of graph-related tasks.Recent evidence in the GNN community shows that such good performance can be attributed to the homophily prior;i.e.,connected nodes tend to have similar features and labels.However,in heterophilic settings where the features of connected nodes may vary significantly,GNN models exhibit notable performance deterioration.In this work,we formulate this problem as prior-data confict and propose a model called the mixture-prior graph neural network(MPGNN).First,to address the mismatch of homophily prior on heterophilic graphs,we introduce the non-informative prior,which makes no assumptions about the relationship between connected nodes and learns such relationship from the data.Second,to avoid performance degradation on homophilic graphs,we implement a soft switch to balance the effects of homophily prior and non-informative prior by learnable weights.We evaluate the performance of MPGNN on both synthetic and real-world graphs.Results show that MPGNN can effectively capture the relationship between connected nodes,while the soft switch helps select a suitable prior according to the graph characteristics.With these two designs,MPGNN outperforms state-of-the-art methods on heterophilic graphs without sacrificing performance on homophilic graphs.
基金
Project supported by the National University of Defense Technology Foundation(Nos.ZK20-09 and ZK21-17)
the Natural Science Foundation of Hunan Province,China(No.2021JJ40692)
the National Key R&D Program of China(No.2021YFB0300101)。
