Academic paper recommender system using multilevel simultaneous citation networks

作者:

Highlights:

• We propose a paper recommender system based on multilevel citation networks.

• The proposed method discovers structural and semantic relationships among papers.

• The proposed method can find influential and advantageous papers.

• The proposed method is superior to “Google scholar” and “SCOPUS”.

摘要

Researchers typically need to filter several academic papers to find those relevant to their research. This filtering is cumbersome and time-consuming because the number of published academic papers is growing exponentially. Some researchers have focused on developing better recommender systems for academic papers by using citation analysis and content analysis. Most traditional content analysis is implemented using a keyword matching process, and thus it cannot consider the semantic contexts of items. Further, citation analysis-based techniques rely on the number of links directly citing or being cited in a single-level network. Consequently, it may be difficult to recommend the appropriate papers when the paper of interest does not have enough citation information. To address these problems, we propose a recommendation system for academic papers that combines citation analysis and network analysis. The proposed method is based on multilevel citation networks that compare all the indirectly linked papers to the paper of interest to inspect the structural and semantic relationships among them. Thus, the proposed method tends to recommend informative and useful papers related to both the research topic and the academic theory. The comparison results based on real data showed that the proposed method outperformed the Google Scholar and SCOPUS algorithms.

论文关键词:Academic paper recommender,Citation networks,Recommender systems,Text mining

论文评审过程:Received 20 February 2017, Revised 19 October 2017, Accepted 19 October 2017, Available online 21 October 2017, Version of Record 12 December 2017.

论文官网地址:https://doi.org/10.1016/j.dss.2017.10.011