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A parameterized approximation algorithm for the mixed and windy capacitated arc routing problem : Theory and experiments. / van Bevern, René; Komusiewicz, Christian; Sorge, Manuel.

In: Networks, Vol. 70, No. 3, 01.10.2017, p. 262-278.

Research output: Contribution to journalArticlepeer-review

Harvard

van Bevern, R, Komusiewicz, C & Sorge, M 2017, 'A parameterized approximation algorithm for the mixed and windy capacitated arc routing problem: Theory and experiments', Networks, vol. 70, no. 3, pp. 262-278. https://doi.org/10.1002/net.21742

APA

van Bevern, R., Komusiewicz, C., & Sorge, M. (2017). A parameterized approximation algorithm for the mixed and windy capacitated arc routing problem: Theory and experiments. Networks, 70(3), 262-278. https://doi.org/10.1002/net.21742

Vancouver

van Bevern R, Komusiewicz C, Sorge M. A parameterized approximation algorithm for the mixed and windy capacitated arc routing problem: Theory and experiments. Networks. 2017 Oct 1;70(3):262-278. doi: 10.1002/net.21742

Author

van Bevern, René ; Komusiewicz, Christian ; Sorge, Manuel. / A parameterized approximation algorithm for the mixed and windy capacitated arc routing problem : Theory and experiments. In: Networks. 2017 ; Vol. 70, No. 3. pp. 262-278.

BibTeX

@article{1bc5bb8adf2049fc8ac9d8491fe60b70,
title = "A parameterized approximation algorithm for the mixed and windy capacitated arc routing problem: Theory and experiments",
abstract = "We prove that any polynomial-time α(n) -approximation algorithm for the n-vertex metric asymmetric Traveling Salesperson Problem yields a polynomial-time O(α(C)) -approximation algorithm for the mixed and windy Capacitated Arc Routing Problem, where C is the number of weakly connected components in the subgraph induced by the positive-demand arcs—a small number in many applications. In conjunction with known results, we obtain constant-factor approximations for C ∈ O(log n) and O(log C/log log C) -approximations in general. Experiments show that our algorithm, together with several heuristic enhancements, outperforms many previous polynomial-time heuristics. Finally, since the solution quality achievable in polynomial time appears to mainly depend on C and since C = 1 in almost all benchmark instances, we propose the Ob benchmark set, simulating cities that are divided into several components by a river.",
keywords = "Chinese Postman, combinatorial optimization, fixed-parameter algorithm, NP-hard problem, Rural Postman, transportation, vehicle routing, EULERIAN EXTENSION, BOUNDS",
author = "{van Bevern}, Ren{\'e} and Christian Komusiewicz and Manuel Sorge",
note = "Publisher Copyright: {\textcopyright} 2017 Wiley Periodicals, Inc.",
year = "2017",
month = oct,
day = "1",
doi = "10.1002/net.21742",
language = "English",
volume = "70",
pages = "262--278",
journal = "Networks",
issn = "0028-3045",
publisher = "Wiley-Liss Inc.",
number = "3",

}

RIS

TY - JOUR

T1 - A parameterized approximation algorithm for the mixed and windy capacitated arc routing problem

T2 - Theory and experiments

AU - van Bevern, René

AU - Komusiewicz, Christian

AU - Sorge, Manuel

N1 - Publisher Copyright: © 2017 Wiley Periodicals, Inc.

PY - 2017/10/1

Y1 - 2017/10/1

N2 - We prove that any polynomial-time α(n) -approximation algorithm for the n-vertex metric asymmetric Traveling Salesperson Problem yields a polynomial-time O(α(C)) -approximation algorithm for the mixed and windy Capacitated Arc Routing Problem, where C is the number of weakly connected components in the subgraph induced by the positive-demand arcs—a small number in many applications. In conjunction with known results, we obtain constant-factor approximations for C ∈ O(log n) and O(log C/log log C) -approximations in general. Experiments show that our algorithm, together with several heuristic enhancements, outperforms many previous polynomial-time heuristics. Finally, since the solution quality achievable in polynomial time appears to mainly depend on C and since C = 1 in almost all benchmark instances, we propose the Ob benchmark set, simulating cities that are divided into several components by a river.

AB - We prove that any polynomial-time α(n) -approximation algorithm for the n-vertex metric asymmetric Traveling Salesperson Problem yields a polynomial-time O(α(C)) -approximation algorithm for the mixed and windy Capacitated Arc Routing Problem, where C is the number of weakly connected components in the subgraph induced by the positive-demand arcs—a small number in many applications. In conjunction with known results, we obtain constant-factor approximations for C ∈ O(log n) and O(log C/log log C) -approximations in general. Experiments show that our algorithm, together with several heuristic enhancements, outperforms many previous polynomial-time heuristics. Finally, since the solution quality achievable in polynomial time appears to mainly depend on C and since C = 1 in almost all benchmark instances, we propose the Ob benchmark set, simulating cities that are divided into several components by a river.

KW - Chinese Postman

KW - combinatorial optimization

KW - fixed-parameter algorithm

KW - NP-hard problem

KW - Rural Postman

KW - transportation

KW - vehicle routing

KW - EULERIAN EXTENSION

KW - BOUNDS

UR - http://www.scopus.com/inward/record.url?scp=85017443169&partnerID=8YFLogxK

U2 - 10.1002/net.21742

DO - 10.1002/net.21742

M3 - Article

AN - SCOPUS:85017443169

VL - 70

SP - 262

EP - 278

JO - Networks

JF - Networks

SN - 0028-3045

IS - 3

ER -

ID: 9087731