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Knowledge-refined Denoising Network for Robust Recommendation

Xinjun Zhu, Yuntao Du, Yuren Mao, Lu Chen, Yujia Hu, Yunjun Gao

202330 citationsDOIOpen Access PDF

Abstract

Knowledge graph (KG), which contains rich side information, becomes an essential part to boost the recommendation performance and improve its explainability. However, existing knowledge-aware recommendation methods directly perform information propagation on KG and user-item bipartite graph, ignoring the impacts of task-irrelevant knowledge propagation and vulnerability to interaction noise, which limits their performance. To solve these issues, we propose a robust knowledge-aware recommendation framework, called Knowledge-refined Denoising Network (KRDN), to prune the task-irrelevant knowledge associations and noisy implicit feedback simultaneously. KRDN consists of an adaptive knowledge refining strategy and a contrastive denoising mechanism, which are able to automatically distill high-quality KG triplets for aggregation and prune noisy implicit feedback respectively. Besides, we also design the self-adapted loss function and the gradient estimator for model optimization. The experimental results on three benchmark datasets demonstrate the effectiveness and robustness of KRDN over the state-of-the-art knowledge-aware methods like KGIN, MCCLK, and KGCL, and also outperform robust recommendation models like SGL and SimGCL. The implementations are available at https://github.com/xj-zhu98/KRDN.

Topics & Concepts

Computer scienceRobustness (evolution)Benchmark (surveying)GraphRecommender systemMachine learningImplementationBipartite graphCollaborative filteringArtificial intelligenceData miningTheoretical computer scienceChemistryGeographyGeodesyBiochemistryProgramming languageGeneRecommender Systems and TechniquesAdvanced Graph Neural NetworksRadiomics and Machine Learning in Medical Imaging