Revisiting Homophily Ratio: A Relation-Aware Graph Neural Network for Homophily and Heterophily

Wei Huang; Xiangshuo Guan; Desheng Liu

doi:10.3390/electronics12041017

Revisiting Homophily Ratio: A Relation-Aware Graph Neural Network for Homophily and Heterophily

Wei Huang, Xiangshuo Guan, Desheng Liu^*

^*Corresponding author for this work

School of Cyberspace Science and Technology

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

The graph neural network (GNN) is a type of powerful deep learning model used to process graph data consisting of nodes and edges. Many studies of GNNs have modeled the relationships between the edges and labels of nodes only by homophily/heterophily, where most/few nodes with the same label tend to have an edge between each other. However, this modeling method cannot describe the multiconnection mode on graphs where homophily can coexist with heterophily. In this work, we propose a transition matrix to describe the relationships between edges and labels at the class level. Through this transition matrix, we constructed a more interpretable GNN in a neighbor-predicting manner, measured the information that the edges can provide for the node classification task, and proposed a method to test whether the labels match the edges. The results show the improvement of the proposed method against state-of-the-art (SOTA) GNNs.

Original language	English
Article number	1017
Journal	Electronics (Switzerland)
Volume	12
Issue number	4
DOIs	https://doi.org/10.3390/electronics12041017
Publication status	Published - Feb 2023

Keywords

graph data evaluation
graph neural networks
heterophily
information entropy of edges

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10.3390/electronics12041017

Cite this

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title = "Revisiting Homophily Ratio: A Relation-Aware Graph Neural Network for Homophily and Heterophily",

abstract = "The graph neural network (GNN) is a type of powerful deep learning model used to process graph data consisting of nodes and edges. Many studies of GNNs have modeled the relationships between the edges and labels of nodes only by homophily/heterophily, where most/few nodes with the same label tend to have an edge between each other. However, this modeling method cannot describe the multiconnection mode on graphs where homophily can coexist with heterophily. In this work, we propose a transition matrix to describe the relationships between edges and labels at the class level. Through this transition matrix, we constructed a more interpretable GNN in a neighbor-predicting manner, measured the information that the edges can provide for the node classification task, and proposed a method to test whether the labels match the edges. The results show the improvement of the proposed method against state-of-the-art (SOTA) GNNs.",

keywords = "graph data evaluation, graph neural networks, heterophily, information entropy of edges",

author = "Wei Huang and Xiangshuo Guan and Desheng Liu",

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doi = "10.3390/electronics12041017",

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journal = "Electronics (Switzerland)",

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AU - Guan, Xiangshuo

AU - Liu, Desheng

PY - 2023/2

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N2 - The graph neural network (GNN) is a type of powerful deep learning model used to process graph data consisting of nodes and edges. Many studies of GNNs have modeled the relationships between the edges and labels of nodes only by homophily/heterophily, where most/few nodes with the same label tend to have an edge between each other. However, this modeling method cannot describe the multiconnection mode on graphs where homophily can coexist with heterophily. In this work, we propose a transition matrix to describe the relationships between edges and labels at the class level. Through this transition matrix, we constructed a more interpretable GNN in a neighbor-predicting manner, measured the information that the edges can provide for the node classification task, and proposed a method to test whether the labels match the edges. The results show the improvement of the proposed method against state-of-the-art (SOTA) GNNs.

AB - The graph neural network (GNN) is a type of powerful deep learning model used to process graph data consisting of nodes and edges. Many studies of GNNs have modeled the relationships between the edges and labels of nodes only by homophily/heterophily, where most/few nodes with the same label tend to have an edge between each other. However, this modeling method cannot describe the multiconnection mode on graphs where homophily can coexist with heterophily. In this work, we propose a transition matrix to describe the relationships between edges and labels at the class level. Through this transition matrix, we constructed a more interpretable GNN in a neighbor-predicting manner, measured the information that the edges can provide for the node classification task, and proposed a method to test whether the labels match the edges. The results show the improvement of the proposed method against state-of-the-art (SOTA) GNNs.

KW - graph data evaluation

KW - graph neural networks

KW - heterophily

KW - information entropy of edges

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Revisiting Homophily Ratio: A Relation-Aware Graph Neural Network for Homophily and Heterophily

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Keywords

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