996 research outputs found
Learning Contextual Bandits in a Non-stationary Environment
Multi-armed bandit algorithms have become a reference solution for handling
the explore/exploit dilemma in recommender systems, and many other important
real-world problems, such as display advertisement. However, such algorithms
usually assume a stationary reward distribution, which hardly holds in practice
as users' preferences are dynamic. This inevitably costs a recommender system
consistent suboptimal performance. In this paper, we consider the situation
where the underlying distribution of reward remains unchanged over (possibly
short) epochs and shifts at unknown time instants. In accordance, we propose a
contextual bandit algorithm that detects possible changes of environment based
on its reward estimation confidence and updates its arm selection strategy
respectively. Rigorous upper regret bound analysis of the proposed algorithm
demonstrates its learning effectiveness in such a non-trivial environment.
Extensive empirical evaluations on both synthetic and real-world datasets for
recommendation confirm its practical utility in a changing environment.Comment: 10 pages, 13 figures, To appear on ACM Special Interest Group on
Information Retrieval (SIGIR) 201
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