Trust-Based Collaborative Filtering: Tackling the Cold Start Problem Using Regular Equivalence

Tomislav Duricic, Emanuel Lacic, Dominik Kowald, Elisabeth Lex

Research output: Working paperPreprint

Abstract

User-based Collaborative Filtering (CF) is one of the most popular approaches to create recommender systems. This approach is based on finding the most relevant k users from whose rating history we can extract items to recommend. CF, however, suffers from data sparsity and the cold-start problem since users often rate only a small fraction of available items. One solution is to incorporate additional information into the recommendation process such as explicit trust scores that are assigned by users to others or implicit trust relationships that result from social connections between users. Such relationships typically form a very sparse trust network, which can be utilized to generate recommendations for users based on people they trust. In our work, we explore the use of a measure from network science, i.e. regular equivalence, applied to a trust network to generate a similarity matrix that is used to select the k-nearest neighbors for recommending items. We evaluate our approach on Epinions and we find that we can outperform related methods for tackling cold-start users in terms of recommendation accuracy.
Original languageUndefined/Unknown
Publication statusPublished - 18 Jul 2018

Publication series

NamearXiv.org e-Print archive
PublisherCornell University Library

Keywords

  • cs.SI
  • cs.IR

Cite this