Dynamic Regret for Non-Stationary Linear Bandits via Misspecification Reductions
Abstract
Many online decision-making problems involve both round-specific feasible actions and drifting reward models: eligible ad impressions, feasible prices, and available treatments can change over time, while user preferences, demand curves, and patient responses may evolve.
Motivated by these applications, we study non-stationary linear bandits with round-specific feasible decision sets.
Existing methods that obtain the optimal \(\widetilde O(T^{2/3}P_T^{1/3})\) dependence, where \(P_T\) is the path length of the reward-parameter sequence, impose an orthogonal-structure assumption on round-specific decision sets, which can be restrictive in contextual applications.
We address this gap through a unified misspecification-reduction viewpoint: after partitioning the horizon into blocks, we relate each block's dynamic regret to regret against a fixed-parameter linear bandit benchmark, with the within-block parameter drift entering as bounded misspecification.
Restarting algorithms with misspecification-dependent regret guarantees then yields the optimal \(T^{2/3}P_T^{1/3}\) dynamic-regret dependence for both linear bandits with general compact decision sets and \(K\)-armed contextual linear bandits.
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