English

Learning Explicit User Interest Boundary for Recommendation

Information Retrieval 2022-03-01 v1 Artificial Intelligence

Abstract

The core objective of modelling recommender systems from implicit feedback is to maximize the positive sample score sps_p and minimize the negative sample score sns_n, which can usually be summarized into two paradigms: the pointwise and the pairwise. The pointwise approaches fit each sample with its label individually, which is flexible in weighting and sampling on instance-level but ignores the inherent ranking property. By qualitatively minimizing the relative score snsps_n - s_p, the pairwise approaches capture the ranking of samples naturally but suffer from training efficiency. Additionally, both approaches are hard to explicitly provide a personalized decision boundary to determine if users are interested in items unseen. To address those issues, we innovatively introduce an auxiliary score bub_u for each user to represent the User Interest Boundary(UIB) and individually penalize samples that cross the boundary with pairwise paradigms, i.e., the positive samples whose score is lower than bub_u and the negative samples whose score is higher than bub_u. In this way, our approach successfully achieves a hybrid loss of the pointwise and the pairwise to combine the advantages of both. Analytically, we show that our approach can provide a personalized decision boundary and significantly improve the training efficiency without any special sampling strategy. Extensive results show that our approach achieves significant improvements on not only the classical pointwise or pairwise models but also state-of-the-art models with complex loss function and complicated feature encoding.

Keywords

Cite

@article{arxiv.2111.11026,
  title  = {Learning Explicit User Interest Boundary for Recommendation},
  author = {Jianhuan Zhuo and Qiannan Zhu and Yinliang Yue and Yuhong Zhao},
  journal= {arXiv preprint arXiv:2111.11026},
  year   = {2022}
}

Comments

12 pages, 9 figures, 5 tables

R2 v1 2026-06-24T07:46:53.829Z