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A quasi-polynomial algorithm for well-spaced hyperbolic TSP
Published 13 Feb 2020 in cs.CG and cs.DS | (2002.05414v1)
Abstract: We study the traveling salesman problem in the hyperbolic plane of Gaussian curvature $-1$. Let $\alpha$ denote the minimum distance between any two input points. Using a new separator theorem and a new rerouting argument, we give an $n{O(\log2 n)\max(1,1/\alpha)}$ algorithm for Hyperbolic TSP. This is quasi-polynomial time if $\alpha$ is at least some absolute constant, and it grows to $n{O(\sqrt{n})}$ as $\alpha$ decreases to $\log2 n/\sqrt{n}$. (For even smaller values of $\alpha$, we can use a planarity-based algorithm of Hwang et al. (1993), which gives a running time of $n{O(\sqrt{n})}$.)
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