Graph convolutional networks: a comprehensive review
TLDR
A comprehensive review specifically on the emerging field of graph convolutional networks, which is one of the most prominent graph deep learning models, is conducted and several open challenges are presented and potential directions for future research are discussed.Abstract:
Graphs naturally appear in numerous application domains, ranging from social analysis, bioinformatics to computer vision. The unique capability of graphs enables capturing the structural relations among data, and thus allows to harvest more insights compared to analyzing data in isolation. However, it is often very challenging to solve the learning problems on graphs, because (1) many types of data are not originally structured as graphs, such as images and text data, and (2) for graph-structured data, the underlying connectivity patterns are often complex and diverse. On the other hand, the representation learning has achieved great successes in many areas. Thereby, a potential solution is to learn the representation of graphs in a low-dimensional Euclidean space, such that the graph properties can be preserved. Although tremendous efforts have been made to address the graph representation learning problem, many of them still suffer from their shallow learning mechanisms. Deep learning models on graphs (e.g., graph neural networks) have recently emerged in machine learning and other related areas, and demonstrated the superior performance in various problems. In this survey, despite numerous types of graph neural networks, we conduct a comprehensive review specifically on the emerging field of graph convolutional networks, which is one of the most prominent graph deep learning models. First, we group the existing graph convolutional network models into two categories based on the types of convolutions and highlight some graph convolutional network models in details. Then, we categorize different graph convolutional networks according to the areas of their applications. Finally, we present several open challenges in this area and discuss potential directions for future research.read more
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References
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Proceedings Article
Stochastic Training of Graph Convolutional Networks with Variance Reduction
Jianfei Chen,Jun Zhu,Le Song +2 more
TL;DR: In this article, the authors develop control variate based algorithms which allow sampling an arbitrarily small neighbor size, and they prove new theoretical guarantee for their algorithms to converge to a local optimum of GCN.
Proceedings Article
Geometric Matrix Completion with Recurrent Multi-Graph Neural Networks
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Proceedings ArticleDOI
Dual Graph Convolutional Networks for Graph-Based Semi-Supervised Classification
Chenyi Zhuang,Qiang Ma +1 more
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Proceedings ArticleDOI
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Proceedings ArticleDOI
Jointly Multiple Events Extraction via Attention-based Graph Information Aggregation
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