Several learning problems involve solving min-max problems, e.g., empirical distributional robust learning or learning with non-standard aggregated losses. More specifically, these problems are convex-linear problems where the minimization is carried out over the model parameters $winmathcal{W}$ and the maximization over the empirical distribution $pinmathcal{K}$ of the training set indexes, where $mathcal{K}$ is the simplex or a subset of it. To design efficient methods, we let an online learning algorithm play against a (combinatorial) bandit algorithm. We argue that the efficiency of such approaches critically depends on the structure of $mathcal{K}$ and propose two properties of $mathcal{K}$ that facilitate designing efficient algorithms. We focus on a specific family of sets $mathcal{S}_{n,k}$ encompassing various learning applications and provide high-probability convergence guarantees to the minimax values.
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