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Evolutionary Preference Learning via Graph Nested GRU ODE for Session-based Recommendation

Jiayan Guo, Peiyan Zhang, Chaozhuo Li, Xing Xie, Yan Zhang, Sung Hun Kim

2022Proceedings of the 31st ACM International Conference on Information & Knowledge Management38 citationsDOIOpen Access PDF

Abstract

Session-based recommendation (SBR) aims to predict the user's next action based on the ongoing sessions. Recently, there has been an increasing interest in modeling the user preference evolution to capture the fine-grained user interests. While latent user preferences behind the sessions drift continuously over time, most existing approaches still model the temporal session data in discrete state spaces, which are incapable of capturing the fine-grained preference evolution and result in sub-optimal solutions. To this end, we propose Graph Nested GRU ordinary differential equation (ODE), namely GNG-ODE, a novel continuum model that extends the idea of neural ODEs to continuous-time temporal session graphs. The proposed model preserves the continuous nature of dynamic user preferences, encoding both temporal and structural patterns of item transitions into continuous-time dynamic embeddings. As the existing ODE solvers do not consider graph structure change and thus cannot be directly applied to the dynamic graph, we propose a time alignment technique, called t-Alignment, to align the updating time steps of the temporal session graphs within a batch. Empirical results on three benchmark datasets show that GNG-ODE significantly outperforms other baselines.

Topics & Concepts

OdeSession (web analytics)Computer scienceGraphPreferenceRecommender systemArtificial intelligenceTheoretical computer scienceMachine learningMathematicsStatisticsWorld Wide WebApplied mathematicsRecommender Systems and TechniquesCaching and Content DeliveryData Stream Mining Techniques
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