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Volume 16, No 4, 2009, P. 3-20

UDC 519.178
A. A. Ageev, A. V. Pyatkin
A 2-approximation algorithm for the metric 2-peripatetic salesman problem

Abstract:
In the $m$-peripatetic traveling salesman problem, given an $n$-vertex complete undirected edge-weighted graph, it is required to find $m$ edge disjoint Hamiltonian cycles of minimum total weight. The problem was introduced by Krarup (1974) and has network design and scheduling applications. It is known that 2-PSP is NP-hard even in the metric case and does not admit any constant-factor approximation in the general case. Baburin, Gimadi, and Korkishko (2004) designed a $(9/4+\varepsilon)$-approximation algorithm for the metric case of 2-PSP, based on solving the traveling salesman problem. In the paper we present an improved 2-approximation algorithm with running time $O(n^2\log n)$ for the metric 2-PSP. Our algorithm exploits the fact that the problem of finding two edge disjoint spanning trees of minimum total weight is polynomially solvable.
Il. 5, bibl. 12.

Keywords: approximation algorithm, Hamiltonian cycle, spanning tree, traveling salesman problem.

Ageev Alexander Alexandrovich 1,2
Pyatkin Artem Valerievich 1,2

1. S. L. Sobolev Institute of Mathematics, SB RAS,
4 Acad. Koptyug Ave., 630090 Novosibirsk, Russia
2. Novosibirsk State University,
2 Pirogov St., 630090 Novosibirsk, Russia
e-mail: ageev@math.nsc.ru, artem@math.nsc.ru

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