Unconstrained Dynamic Regret via Sparse Coding
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Motivated by time series forecasting, we study Online Linear Optimization (OLO) under the coupling of two problem structures: the domain is unbounded, and the performance of an algorithm is measured by its dynamic regret. Handling either of them requires the regret bound to depend on certain complexity measure of the comparator sequence – specifically, the comparator norm in unconstrained OLO, and the path length in dynamic regret. In contrast to a recent work (Jacobsen Cutkosky, 2022) that adapts to the combination of these two complexity measures, we propose an alternative complexity measure by recasting the problem into sparse coding. Adaptivity can be achieved by a simple modular framework, which naturally exploits more intricate prior knowledge of the environment. Along the way, we also present a new gradient adaptive algorithm for static unconstrained OLO, designed using novel continuous time machinery. This could be of independent interest.
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