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PEVAE

Zefeng Cai, Zerui Cai

2022Proceedings of the 45th International ACM SIGIR Conference on Research and Development in Information Retrieval17 citationsDOI

Abstract

Variational autoencoders (VAEs) have been widely applied in recommendations. One reason is that their amortized inferences are beneficial for overcoming the data sparsity. However, in explainable recommendation that generates natural language explanations, they are still rarely explored. Thus, we aim to extend VAE to explainable recommendation. In this task, we find that VAE can generate acceptable explanations for users with few relevant training samples, however, it tends to generate less personalized explanations for users with relatively sufficient samples than autoencoders (AEs). We conjecture that information shared by different users in VAE disturbs the information for a specific user. To deal with this problem, we present PErsonalized VAE (PEVAE) that generates personalized natural language explanations for explainable recommendation. Moreover, we propose two novel mechanisms to aid our model in generating more personalized explanations, including 1) Self-Adaption Fusion (SAF) manipulates the latent space in a self-adaption manner for controlling the influence of shared information. In this way, our model can enjoy the advantage of overcoming the sparsity of data while generating more personalized explanations for a user with relatively sufficient training samples. 2) DEpendence Maximization (DEM) strengthens dependence between recommendations and explanations by maximizing the mutual information. It makes the explanation more specific to the input user-item pair and thus improves the personalization of the generated explanations. Extensive experiments show PEVAE can generate more personalized explanations and further analyses demonstrate the practical effect of our proposed methods.

Topics & Concepts

Computer sciencePersonalizationTask (project management)Space (punctuation)Artificial intelligenceMaximizationCollaborative filteringNatural languageInformation retrievalMachine learningHuman–computer interactionRecommender systemWorld Wide WebMathematicsOperating systemMathematical optimizationManagementEconomicsTopic ModelingRecommender Systems and TechniquesMachine Learning in Healthcare
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