Affiliation:
1. Electrical Engineering and Computer Science Department, York University, Canada
Abstract
Graph representation learning has been a very active research area in recent years. The goal of graph representation learning is to generate graph representation vectors that capture the structure and features of large graphs accurately. This is especially important because the quality of the graph representation vectors will affect the performance of these vectors in downstream tasks such as node classification, link prediction and anomaly detection. Many techniques have been proposed for generating effective graph representation vectors, which generally fall into two categories: traditional graph embedding methods and graph neural network (GNN)–based methods. These methods can be applied to both static and dynamic graphs. A static graph is a single fixed graph, whereas a dynamic graph evolves over time and its nodes and edges can be added or deleted from the graph. In this survey, we review the graph-embedding methods in both traditional and GNN-based categories for both static and dynamic graphs and include the recent papers published until the time of submission. In addition, we summarize a number of limitations of GNNs and the proposed solutions to these limitations. Such a summary has not been provided in previous surveys. Finally, we explore some open and ongoing research directions for future work.
Publisher
Association for Computing Machinery (ACM)
Subject
Artificial Intelligence,Theoretical Computer Science
Reference383 articles.
1. Application of network link prediction in drug discovery;Abbas Khushnood;BMC Bioinformatics,2021
2. Watch your step: Learning node embeddings via graph attention;Abu-El-Haija Sami;Advances in Neural Information Processing Systems,2018
3. Amr Ahmed, Nino Shervashidze, Shravan Narayanamurthy, Vanja Josifovski, and Alexander J. Smola. 2013. Distributed large-scale natural graph factorization. In Proceedings of the 22nd International Conference on World Wide Web. 37–48.
4. Nesreen K. Ahmed, Jennifer Neville, Ryan A. Rossi, and Nick Duffield. 2015. Efficient graphlet counting for large networks. In 2015 IEEE International Conference on Data Mining. IEEE, 1–10.
5. Rami Al-Rfou, Bryan Perozzi, and Dustin Zelle. 2019. DDGK: Learning graph representations for deep divergence graph kernels. In The World Wide Web Conference. 37–48.
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