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JOURNALS // Trudy Instituta Matematiki i Mekhaniki UrO RAN // Archive

Trudy Inst. Mat. i Mekh. UrO RAN, 2023 Volume 29, Number 3, Pages 261–273 (Mi timm2030)

This article is cited in 1 paper

Polynomial-Time Approximability of the Asymmetric Problem of Covering a Graph by a Bounded Number of Cycles

M. Yu. Khachaya, E. D. Neznakhinaab, K. V. Ryzhenkoa

a N.N. Krasovskii Institute of Mathematics and Mechanics, Ural Branch of the Russian Academy of Sciences, Ekaterinburg
b Ural Federal University named after the First President of Russia B. N. Yeltsin, Ekaterinburg

Abstract: Recently, O. Svensson and V. Traub have provided the first proof of the polynomial-time approximability of the asymmetric traveling salesman problem (ATSP) in the class of constant-factor approximation algorithms. Just as the famous Christofides–Serdyukov algorithm for the symmetric routing problems, these breakthrough results, applied as a “black box,” have opened an opportunity for developing the first constant-factor polynomial-time approximation algorithms for several related combinatorial problems. At the same time, problems have been revealed in which this simple approach, based on reducing a given instance to one or more auxiliary ATSP instances, does not succeed. In the present paper, we extend the Svensson–Traub approach to the wider class of problems related to finding a minimum-weight cycle cover of an edge-weighted directed graph with an additional constraint on the number of cycles. In particular, it is shown for the first time that the minimum weight cycle cover problem with at most $k$ cycles admits polynomial-time approximation with constant factor $\max\{22+\varepsilon,4+k\}$ for arbitrary $\varepsilon>0$.

Keywords: cycle cover of a graph, asymmetric traveling salesman problem, constant-factor approximation algorithm.

UDC: 519.16 + 519.85

MSC: 68W25

Received: 04.08.2023
Revised: 18.08.2023
Accepted: 21.08.2023

DOI: 10.21538/0134-4889-2023-29-3-261-273


 English version:
Proceedings of the Steklov Institute of Mathematics (Supplementary issues), 2023, 323, suppl. 1, S121–S132

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© Steklov Math. Inst. of RAS, 2024