The Generalized Likelihood Ratio Test meets klUCB: an Improved Algorithm for Piece-Wise Non-Stationary Bandits.

Authors
Publication date
2019
Publication type
Other
Summary We propose a new algorithm for the piece-wise i.i.d. non-stationary bandit problem with bounded rewards. Our proposal, GLR-klUCB, combines an efficient bandit algorithm, klUCB, with an efficient, parameter-free, change-point detector, the Bernoulli Generalized Likelihood Ratio Test, for which we provide new theoretical guarantees of independent interest. We analyze two variants of our strategy, based on local restarts and global restarts, and show that their regret is upper-bounded by $O(\Upsilon_T \sqrt{T \log(T)})$ if the number of change-points $Υ_T$ is unknown, and by $O(\sqrt{\Upsilon_T T \log(T)})$ if $\Upsilon_T$ is known. This improves the current state-of-the-art bounds, as our algorithm needs no tuning based on knowledge of the problem complexity other than $Υ_T$. We present numerical experiments showing that GLR-klUCB outperforms passively and actively adaptive algorithms from the literature, and highlight the benefit of using local restarts.
Topics of the publication
Themes detected by scanR from retrieved publications. For more information, see https://scanr.enseignementsup-recherche.gouv.fr