Multipath-guided heterogeneous graph neural networks for sequential recommendation

IF 3.1 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Computer Speech and Language Pub Date : 2024-03-16 DOI:10.1016/j.csl.2024.101642

Fulian Yin , Tongtong Xing , Meiqi Ji , Zebin Yao , Ruiling Fu , Yuewei Wu

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引用次数: 0

Abstract

With the explosion of information and users’ changing interest, program sequential recommendation becomes increasingly important for TV program platforms to help their users find interesting programs. Existing sequential recommendation methods mainly focus on modeling user preferences from users’ historical interaction behaviors directly, with insufficient learning about the dynamics of programs and users, while ignoring the rich semantic information from the heterogeneous graph. To address these issues, we propose the multipath-guided heterogeneous graph neural networks for TV program sequential recommendation (MHG-PSR), which can enhance the representations of programs and users through multiple paths in heterogeneous graphs. In our method, the auxiliary information is fused to supplement the semantics of program and user to obtain initial representations. Then, we explore the interactive behaviors of programs and users with temporal and auxiliary information to model the collaborative signals in the heterogeneous graph and extract the users’ dynamic preferences of programs. Extensive experiments on real-world datasets verify the proposed method can effectively improve the performance of TV program sequential recommendation.

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用于顺序推荐的多路径引导异构图神经网络

随着信息爆炸和用户兴趣的变化，节目顺序推荐对于电视节目平台帮助用户找到感兴趣的节目变得越来越重要。现有的顺序推荐方法主要是直接从用户的历史交互行为中建立用户偏好模型，对节目和用户的动态学习不足，同时忽略了异构图中丰富的语义信息。针对这些问题，我们提出了用于电视节目顺序推荐的多路径引导异构图神经网络（MHG-PSR），它可以通过异构图中的多路径增强节目和用户的表征。在我们的方法中，通过融合辅助信息来补充节目和用户的语义，从而获得初始表征。然后，我们利用时间信息和辅助信息探索程序和用户的交互行为，从而为异构图中的协作信号建模，并提取用户对程序的动态偏好。在实际数据集上的大量实验验证了所提出的方法能有效提高电视节目顺序推荐的性能。

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来源期刊

Computer Speech and Language 工程技术-计算机：人工智能

CiteScore

11.30

自引率

4.70%

发文量

审稿时长

22.9 weeks

期刊介绍： Computer Speech & Language publishes reports of original research related to the recognition, understanding, production, coding and mining of speech and language. The speech and language sciences have a long history, but it is only relatively recently that large-scale implementation of and experimentation with complex models of speech and language processing has become feasible. Such research is often carried out somewhat separately by practitioners of artificial intelligence, computer science, electronic engineering, information retrieval, linguistics, phonetics, or psychology.