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Multi-grained Semantics-aware Graph Neural Networks

Zhiqiang Zhong, Cheng–Te Li, Jun Pang

2022IEEE Transactions on Knowledge and Data Engineering13 citationsDOIOpen Access PDF

Abstract

Graph Neural Networks (GNNs) are powerful techniques in representation learning for graphs and have been increasingly deployed in a multitude of different applications that involve node- and graph-wise tasks. Most existing studies solve either the node-wise task or the graph-wise task independently while they are inherently correlated. This work proposes a unified model, AdamGNN, to interactively learn node and graph representations in a mutual-optimisation manner. Compared with existing GNN models and graph pooling methods, AdamGNN enhances the node representation with the learned multi-grained semantics and avoids losing node features and graph structure information during pooling. Specifically, a differentiable pooling operator is proposed to adaptively generate a multi-grained structure that involves meso- and macro-level semantic information in the graph. We also devise the unpooling operator and the <i>flyback</i> aggregator in AdamGNN to better leverage the multi-grained semantics to enhance node representations. The updated node representations can further adjust the graph representation in the next iteration. Experiments on 14 real-world graph datasets show that AdamGNN can significantly outperform 17 competing models on both node- and graph-wise tasks. The ablation studies confirm the effectiveness of AdamGNN&#x0027;s components, and the last empirical analysis further reveals the ingenious ability of AdamGNN in capturing long-range interactions.

Topics & Concepts

Computer scienceTheoretical computer sciencePoolingGraphLeverage (statistics)Artificial intelligenceAdvanced Graph Neural NetworksRecommender Systems and TechniquesTopic Modeling
Multi-grained Semantics-aware Graph Neural Networks | Litcius