Adaptive and optimal online linear regression on 1-balls

Abstract

We consider the problem of online linear regression on individual sequences. The goal in this paper is for the forecaster to output sequential predictions which are, after T time rounds, almost as good as the ones output by the best linear predictor in a given 1-ball in \d. We consider both the cases where the dimension~d is small and large relative to the time horizon T. We first present regret bounds with optimal dependencies on d, T, and on the sizes U, X and Y of the 1-ball, the input data and the observations. The minimax regret is shown to exhibit a regime transition around the point d = T U X / (2 Y). Furthermore, we present efficient algorithms that are adaptive, , that do not require the knowledge of U, X, Y, and T, but still achieve nearly optimal regret bounds.