📝 SummarXiv

Abstract

Recommender systems have been shown to exhibit popularity bias by over-recommending popular items and under-recommending relevant niche items. We seek to understand interactions with niche items in benchmark recommendation datasets as a step toward mitigating popularity bias. We find that, compared to mainstream users, niche-preferring users exhibit a longer-tailed activity-level distribution, indicating the existence of users who both prefer niche items and exhibit high activity levels. We partition users along two axes: (1) activity level ("power" vs. "light") and (2) item-popularity preference ("mainstream" vs. "niche"), and show that in several benchmark datasets, the number of power-niche users (high activity and niche preference) is statistically significantly larger than expected under a null configuration model. Motivated by this observation, we propose a framework for reweighting the Bayesian Personalized Ranking (BPR) loss that simultaneously reweights based on user activity level and item popularity. Our method introduces two interpretable parameters: one controlling the significance of user activity level, and the other of item popularity. Experiments on benchmark datasets show that upweighting power-niche users reduces popularity bias and can increase overall performance. In contrast to previous work that only considers user activity level or item popularity in isolation, our results suggest that considering their interaction leads to Pareto-dominant performance.