Faster Approximation Scheme for Euclidean $k$-TSP

July 16, 2023 Β· Declared Dead Β· πŸ› International Symposium on Computational Geometry

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Authors Ernest van Wijland, Hang Zhou arXiv ID 2307.08069 Category cs.CG: Computational Geometry Cross-listed cs.DS Citations 1 Venue International Symposium on Computational Geometry Last Checked 3 months ago
Abstract
In the Euclidean $k$-traveling salesman problem ($k$-TSP), we are given $n$ points in the $d$-dimensional Euclidean space, for some fixed constant $d\geq 2$, and a positive integer $k$. The goal is to find a shortest tour visiting at least $k$ points. We give an approximation scheme for the Euclidean $k$-TSP in time $n\cdot 2^{O(1/\varepsilon^{d-1})} \cdot(\log n)^{2d^2\cdot 2^d}$. This improves Arora's approximation scheme of running time $n\cdot k\cdot (\log n)^{\left(O\left(\sqrt{d}/\varepsilon\right)\right)^{d-1}}$ [J. ACM 1998]. Our algorithm is Gap-ETH tight and can be derandomized by increasing the running time by a factor $O(n^d)$.
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