A deeper graph neural network for recommender systems

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摘要

Interaction data in recommender systems are usually represented by a bipartite user–item graph whose edges represent interaction behavior between users and items. The data sparsity problem, which is common in recommender systems, is the result of insufficient interaction data in the link prediction on graphs. The data sparsity problem can be alleviated by extracting more interaction behavior from the bipartite graph, however, stacking multiple layers will lead to over-smoothing, in which case, all nodes will converge to the same value. To address this issue, we propose a deeper graph neural network in this paper that can predict links on a bipartite user–item graph using information propagation. An attention mechanism is introduced to our method to address the problem that variable size inputs for each node on a bipartite graph. Our experimental results demonstrate that our proposed method outperforms five baselines, suggesting that the interactions extracted help to alleviate the data sparsity problem and improve recommendation accuracy.

论文关键词:00-01,99-00,Recommender systems,Representation learning,Graph neural network,Collaborative filtering

论文评审过程:Received 12 April 2019, Revised 26 June 2019, Accepted 1 September 2019, Available online 6 September 2019, Version of Record 25 October 2019.

论文官网地址:https://doi.org/10.1016/j.knosys.2019.105020