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An academic recommender system on large citation data based on clustering, graph modeling and deep learning

Vaios Stergiopoulos, Michael Vassilakopoulos, Eleni Tousidou, Antonio Corral

2024Knowledge and Information Systems13 citationsDOIOpen Access PDF

Abstract

Abstract Recommendation (recommender) systems (RS) have played a significant role in both research and industry in recent years. In the area of academia, there is a need to help researchers discover the most appropriate and relevant scientific information through recommendations. Nevertheless, we argue that there is a major gap between academic state-of-the-art RS and real-world problems. In this paper, we present a novel multi-staged RS based on clustering, graph modeling and deep learning that manages to run on a full dataset (scientific digital library) in the magnitude of millions users and items (papers). We run several tests (experiments/evaluation) as a means to find the best approach regarding the tuning of our system; so, we present and compare three versions of our RS regarding recall and NDCG metrics. The results show that a multi-staged RS that utilizes a variety of techniques and algorithms is able to face real-world problems and large academic datasets. In this way, we suggest a way to close or minimize the gap between research and industry value RS.

Topics & Concepts

Recommender systemComputer scienceCluster analysisCitationGraphData miningDeep learningArtificial intelligenceInformation retrievalMachine learningWorld Wide WebTheoretical computer scienceRecommender Systems and TechniquesAdvanced Graph Neural NetworksTopic Modeling
An academic recommender system on large citation data based on clustering, graph modeling and deep learning | Litcius