Improved Analysis of the Tsallis-INF Algorithm in Stochastically Constrained Adversarial Bandits and Stochastic Bandits with Adversarial Corruptions


الملخص بالإنكليزية

We derive improved regret bounds for the Tsallis-INF algorithm of Zimmert and Seldin (2021). We show that in adversarial regimes with a $(Delta,C,T)$ self-bounding constraint the algorithm achieves $mathcal{O}left(left(sum_{i eq i^*} frac{1}{Delta_i}right)log_+left(frac{(K-1)T}{left(sum_{i eq i^*} frac{1}{Delta_i}right)^2}right)+sqrt{Cleft(sum_{i eq i^*}frac{1}{Delta_i}right)log_+left(frac{(K-1)T}{Csum_{i eq i^*}frac{1}{Delta_i}}right)}right)$ regret bound, where $T$ is the time horizon, $K$ is the number of arms, $Delta_i$ are the suboptimality gaps, $i^*$ is the best arm, $C$ is the corruption magnitude, and $log_+(x) = maxleft(1,log xright)$. The regime includes stochastic bandits, stochastically constrained adversarial bandits, and stochastic bandits with adversarial corruptions as special cases. Additionally, we provide a general analysis, which allows to achieve the same kind of improvement for generalizations of Tsallis-INF to other settings beyond multiarmed bandits.

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