Online Sign Identification: Minimization of the Number of Errors in Thresholding Bandits

Published in Neural Information Processing Systems 34, Spotlight (top 3%), 2021

Recommended citation: Reda Ouhamma, Rémy Degenne, Vianney Perchet, and Pierre Gaillard. "Online Sign Identification: Minimization of the Number of Errors in Thresholding Bandits." Advances in Neural Information Processing Systems 34 (2021): 18577-18589.

Paper, Poster

Abstract: In the fixed budget thresholding bandit problem, an algorithm sequentially allocates a budgeted number of samples to different distributions. It then predicts whether the mean of each distribution is larger or lower than a given threshold. We introduce a large family of algorithms (containing most existing relevant ones), inspired by the Frank-Wolfe algorithm, and provide a thorough yet generic analysis of their performance. This allowed us to construct new explicit algorithms, for a broad class of problems, whose losses are within a small constant factor of the non-adaptive oracle ones. Quite interestingly, we observed that adaptive methods empirically greatly out-perform non-adaptive oracles, an uncommon behavior in standard online learning settings, such as regret minimization. We explain this surprising phenomenon on an insightful toy problem.