Smoothed Analysis of Online Metric Problems

July 23, 2025 Β· Declared Dead Β· πŸ› Embedded Systems and Applications

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Authors Christian Coester, Jack Umenberger arXiv ID 2507.17834 Category cs.DS: Data Structures & Algorithms Citations 2 Venue Embedded Systems and Applications Last Checked 4 months ago
Abstract
We study three classical online problems -- $k$-server, $k$-taxi, and chasing size $k$ sets -- through a lens of smoothed analysis. Our setting allows request locations to be adversarial up to small perturbations, interpolating between worst-case and average-case models. Specifically, we show that if the metric space is contained in a ball in any normed space and requests are drawn from distributions whose density functions are upper bounded by $1/Οƒ$ times the uniform density over the ball, then all three problems admit polylog$(k/Οƒ)$-competitive algorithms. Our approach is simple: it reduces smoothed instances to fully adversarial instances on finite metrics and leverages existing algorithms in a black-box manner. We also provide a lower bound showing that no algorithm can achieve a competitive ratio sub-polylogarithmic in $k/Οƒ$, matching our upper bounds up to the exponent of the polylogarithm. In contrast, the best known competitive ratios for these problems in the fully adversarial setting are $2k-1$, $\infty$ and $Θ(k^2)$, respectively.
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