A novel self-supervised graph model based on counterfactual learning for diversified recommendation

IF 3 2区计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS Information Systems Pub Date : 2023-11-29 DOI:10.1016/j.is.2023.102322

Pu Ji, Minghui Yang, Rui Sun

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Abstract

Consumers’ needs present a trend of diversification, which causes the emergence of diversified recommendation systems. However, existing diversified recommendation research mostly focuses on objective function construction rather than on the root cause that limits diversity—namely, imbalanced data distribution. This study considers how to balance data distribution to improve recommendation diversity. We propose a novel self-supervised graph model based on counterfactual learning (SSG-CL) for diversified recommendation. SSG-CL first distinguishes the dominant and disadvantageous categories for each user based on long-tail theory. It then introduces counterfactual learning to construct an auxiliary view with relatively balanced distribution among the dominant and disadvantageous categories. Next, we conduct contrastive learning between the user–item interaction graph and the auxiliary view as the self-supervised auxiliary task that aims to improve recommendation diversity. Finally, SSG-CL leverages a multitask training strategy to jointly optimize the main accuracy-oriented recommendation task and the self-supervised auxiliary task. Finally, we conduct experimental studies on real-world datasets, and the results indicate good SSG-CL performance in terms of accuracy and diversity.

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基于反事实学习的多元推荐自监督图模型

消费者的需求呈现出多样化的趋势，这就导致了多样化推荐系统的出现。然而，现有的多元化推荐研究大多侧重于目标函数的构建，而没有关注限制多样性的根本原因——数据分布的不平衡。本研究考虑如何平衡数据分布以提高推荐多样性。提出了一种基于反事实学习(SSG-CL)的多元推荐自监督图模型。SSG-CL首先根据长尾理论区分每个用户的优势和劣势类别。然后引入反事实学习，构建优势类别和劣势类别相对均衡分布的辅助视图。接下来，我们将用户-物品交互图和辅助视图作为自监督辅助任务进行对比学习，以提高推荐多样性。最后，SSG-CL利用多任务训练策略，共同优化面向准确率的主推荐任务和自监督辅助任务。最后，我们在真实数据集上进行了实验研究，结果表明SSG-CL在准确性和多样性方面具有良好的性能。

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来源期刊

Information Systems 工程技术-计算机：信息系统

CiteScore

9.40

自引率

2.70%

发文量

112

审稿时长

53 days

期刊介绍： Information systems are the software and hardware systems that support data-intensive applications. The journal Information Systems publishes articles concerning the design and implementation of languages, data models, process models, algorithms, software and hardware for information systems. Subject areas include data management issues as presented in the principal international database conferences (e.g., ACM SIGMOD/PODS, VLDB, ICDE and ICDT/EDBT) as well as data-related issues from the fields of data mining/machine learning, information retrieval coordinated with structured data, internet and cloud data management, business process management, web semantics, visual and audio information systems, scientific computing, and data science. Implementation papers having to do with massively parallel data management, fault tolerance in practice, and special purpose hardware for data-intensive systems are also welcome. Manuscripts from application domains, such as urban informatics, social and natural science, and Internet of Things, are also welcome. All papers should highlight innovative solutions to data management problems such as new data models, performance enhancements, and show how those innovations contribute to the goals of the application.

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