C2lRec: Causal Contrastive Learning for User Cold-start Recommendation with Social Variable

Embedding-based recommender systems rely on historical interactions to model users, which poses challenges for recommending to new users, known as the user cold-start problem. Some approaches incorporate social networks to deduce preferences based on the social circles of cold-start users to solve t...

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Bibliographic Details
Published in:ACM transactions on information systems 2025-01
Main Authors: Xu, Xiaolong, Dong, Hongsheng, Xiang, Haolong, Hu, Xiyuan, Li, Xiaoyong, Xia, Xiaoyu, Zhang, Xuyun, Qi, Lianyong, Dou, Wanchun
Format: Article
Language:English
Subjects:
Causal reasoning and diagnostics
Computing methodologies
Information systems
Recommender systems
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Summary:Embedding-based recommender systems rely on historical interactions to model users, which poses challenges for recommending to new users, known as the user cold-start problem. Some approaches incorporate social networks to deduce preferences based on the social circles of cold-start users to solve the problem of sparse features. However, such methods have difficulty distinguishing between superficial correlations and causal relationships in social behaviors, leading to inaccuracies in predicting user preferences. To address the aforementioned issues, we propose the Causal Contrastive Learning Recommendation (C2lRec) framework. Specifically, we causally model the inference of hidden preferences from the feature and historical behavior of warm users and predict user interactions based on such preferences. The counterfactual inference is subsequently performed to intervene and extract interactions from historical behaviors of warm users that influence their preferences, designating as primary causal variables. Additionally, we utilize the primary causal variables from users within the social circle of cold-start users to substitute the missing historical interactions of cold-start users and employ a similar causal modeling approach to uncover hidden preferences as we do with warm users. Finally, we realize causal contrastive learning to enhance the distribution of cold-start users. Extensive experiments conducted on three public datasets demonstrate that the recommendation performance of C2lRec exceeds that of state-of-the-art methods.
ISSN:1046-8188
1558-2868
DOI:10.1145/3711858