定价非对称旅行商问题的固定比率多项式时间近似算法

Q3 Mathematics Ural Mathematical Journal Pub Date : 2023-07-27 DOI:10.15826/umj.2023.1.012

Ksenia Rizhenko, Katherine Neznakhina, M. Khachay

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引用次数: 0

摘要

针对著名的不对称旅行商问题，我们开发了第一个固定比近似算法，该算法在运筹学中有许多有价值的应用。该问题的一个实例由一个完整的节点和边加权有向图\(G\)给出。图\(G\)的每个节点既可以被生成的路线访问，也可以被跳过，因为会受到一些惩罚，而\(G\)的弧线则被满足三角形不等式约束的非负运输成本加权。目标是找到一个封闭的步行，使总运输成本最小化，并增加累积的罚款。我们证明了不对称旅行推销员问题的任意\(\alpha\) -近似算法可以推导出问题的\((\alpha+1)\) -近似。特别地，使用V. Traub和J. Vygen最近提出的\((22+\varepsilon)\) -近似算法，改进了O. Svensson、J. Tarnavski和L. v薪金格的开创性结果，我们得到了该问题的\((23+\varepsilon)\) -近似解。

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FIXED RATIO POLYNOMIAL TIME APPROXIMATION ALGORITHM FOR THE PRIZE-COLLECTING ASYMMETRIC TRAVELING SALESMAN PROBLEM

We develop the first fixed-ratio approximation algorithm for the well-known Prize-Collecting Asymmetric Traveling Salesman Problem, which has numerous valuable applications in operations research. An instance of this problem is given by a complete node- and edge-weighted digraph \(G\). Each node of the graph \(G\) can either be visited by the resulting route or skipped, for some penalty, while the arcs of \(G\) are weighted by non-negative transportation costs that fulfill the triangle inequality constraint. The goal is to find a closed walk that minimizes the total transportation costs augmented by the accumulated penalties. We show that an arbitrary \(\alpha\)-approximation algorithm for the Asymmetric Traveling Salesman Problem induces an \((\alpha+1)\)-approximation for the problem in question. In particular, using the recent \((22+\varepsilon)\)-approximation algorithm of V. Traub and J. Vygen that improves the seminal result of O. Svensson, J. Tarnavski, and L. Végh, we obtain \((23+\varepsilon)\)-approximate solutions for the problem.

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