Unsplittable Euclidean Capacitated Vehicle Routing: A (2 + ϵ)-Approximation Algorithm

Fabrizio Grandoni; Claire Mathieu; Hang Zhou

doi:10.4230/LIPIcs.ITCS.2023.63

Unsplittable Euclidean Capacitated Vehicle Routing: A (2 + ϵ)-Approximation Algorithm

Fabrizio Grandoni
, Claire Mathieu
, Hang Zhou

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In the unsplittable capacitated vehicle routing problem, we are given a metric space with a vertex called depot and a set of vertices called terminals. Each terminal is associated with a positive demand between 0 and 1. The goal is to find a minimum length collection of tours starting and ending at the depot such that the demand of each terminal is covered by a single tour (i.e., the demand cannot be split), and the total demand of the terminals in each tour does not exceed the capacity of 1. Our main result is a polynomial-time (2 + ϵ)-approximation algorithm for this problem in the two-dimensional Euclidean plane, i.e., for the special case where the terminals and the depot are associated with points in the Euclidean plane and their distances are defined accordingly. This improves on recent work by Blauth, Traub, and Vygen [IPCO'21] and Friggstad, Mousavi, Rahgoshay, and Salavatipour [IPCO'22].

Original language	English
Title of host publication	14th Innovations in Theoretical Computer Science Conference, ITCS 2023
Editors	Yael Tauman Kalai
Publisher	Schloss Dagstuhl- Leibniz-Zentrum fur Informatik GmbH, Dagstuhl Publishing
ISBN (Electronic)	9783959772631
DOIs	https://doi.org/10.4230/LIPIcs.ITCS.2023.63
Publication status	Published - 1 Jan 2023
Event	14th Innovations in Theoretical Computer Science Conference, ITCS 2023 - Cambridge, United States Duration: 10 Jan 2023 → 13 Jan 2023

Publication series

Name	Leibniz International Proceedings in Informatics, LIPIcs
Volume	251
ISSN (Print)	1868-8969

Conference

Conference	14th Innovations in Theoretical Computer Science Conference, ITCS 2023
Country/Territory	United States
City	Cambridge
Period	10/01/23 → 13/01/23

Keywords

Euclidean plane
approximation algorithms
capacitated vehicle routing

Access to Document

10.4230/LIPIcs.ITCS.2023.63

Cite this

Grandoni, F., Mathieu, C., & Zhou, H. (2023). Unsplittable Euclidean Capacitated Vehicle Routing: A (2 + ϵ)-Approximation Algorithm. In Y. T. Kalai (Ed.), 14th Innovations in Theoretical Computer Science Conference, ITCS 2023 Article 63 (Leibniz International Proceedings in Informatics, LIPIcs; Vol. 251). Schloss Dagstuhl- Leibniz-Zentrum fur Informatik GmbH, Dagstuhl Publishing. https://doi.org/10.4230/LIPIcs.ITCS.2023.63

Grandoni, Fabrizio ; Mathieu, Claire ; Zhou, Hang. / Unsplittable Euclidean Capacitated Vehicle Routing : A (2 + ϵ)-Approximation Algorithm. 14th Innovations in Theoretical Computer Science Conference, ITCS 2023. editor / Yael Tauman Kalai. Schloss Dagstuhl- Leibniz-Zentrum fur Informatik GmbH, Dagstuhl Publishing, 2023. (Leibniz International Proceedings in Informatics, LIPIcs).

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abstract = "In the unsplittable capacitated vehicle routing problem, we are given a metric space with a vertex called depot and a set of vertices called terminals. Each terminal is associated with a positive demand between 0 and 1. The goal is to find a minimum length collection of tours starting and ending at the depot such that the demand of each terminal is covered by a single tour (i.e., the demand cannot be split), and the total demand of the terminals in each tour does not exceed the capacity of 1. Our main result is a polynomial-time (2 + ϵ)-approximation algorithm for this problem in the two-dimensional Euclidean plane, i.e., for the special case where the terminals and the depot are associated with points in the Euclidean plane and their distances are defined accordingly. This improves on recent work by Blauth, Traub, and Vygen [IPCO'21] and Friggstad, Mousavi, Rahgoshay, and Salavatipour [IPCO'22].",

keywords = "Euclidean plane, approximation algorithms, capacitated vehicle routing",

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Grandoni, F, Mathieu, C & Zhou, H 2023, Unsplittable Euclidean Capacitated Vehicle Routing: A (2 + ϵ)-Approximation Algorithm. in YT Kalai (ed.), 14th Innovations in Theoretical Computer Science Conference, ITCS 2023., 63, Leibniz International Proceedings in Informatics, LIPIcs, vol. 251, Schloss Dagstuhl- Leibniz-Zentrum fur Informatik GmbH, Dagstuhl Publishing, 14th Innovations in Theoretical Computer Science Conference, ITCS 2023, Cambridge, United States, 10/01/23. https://doi.org/10.4230/LIPIcs.ITCS.2023.63

Unsplittable Euclidean Capacitated Vehicle Routing: A (2 + ϵ)-Approximation Algorithm. / Grandoni, Fabrizio; Mathieu, Claire; Zhou, Hang.
14th Innovations in Theoretical Computer Science Conference, ITCS 2023. ed. / Yael Tauman Kalai. Schloss Dagstuhl- Leibniz-Zentrum fur Informatik GmbH, Dagstuhl Publishing, 2023. 63 (Leibniz International Proceedings in Informatics, LIPIcs; Vol. 251).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Unsplittable Euclidean Capacitated Vehicle Routing

T2 - 14th Innovations in Theoretical Computer Science Conference, ITCS 2023

AU - Grandoni, Fabrizio

AU - Mathieu, Claire

AU - Zhou, Hang

N1 - Publisher Copyright: © Fabrizio Grandoni, Claire Mathieu, and Hang Zhou; licensed under Creative Commons License CC-BY 4.0.

PY - 2023/1/1

Y1 - 2023/1/1

N2 - In the unsplittable capacitated vehicle routing problem, we are given a metric space with a vertex called depot and a set of vertices called terminals. Each terminal is associated with a positive demand between 0 and 1. The goal is to find a minimum length collection of tours starting and ending at the depot such that the demand of each terminal is covered by a single tour (i.e., the demand cannot be split), and the total demand of the terminals in each tour does not exceed the capacity of 1. Our main result is a polynomial-time (2 + ϵ)-approximation algorithm for this problem in the two-dimensional Euclidean plane, i.e., for the special case where the terminals and the depot are associated with points in the Euclidean plane and their distances are defined accordingly. This improves on recent work by Blauth, Traub, and Vygen [IPCO'21] and Friggstad, Mousavi, Rahgoshay, and Salavatipour [IPCO'22].

AB - In the unsplittable capacitated vehicle routing problem, we are given a metric space with a vertex called depot and a set of vertices called terminals. Each terminal is associated with a positive demand between 0 and 1. The goal is to find a minimum length collection of tours starting and ending at the depot such that the demand of each terminal is covered by a single tour (i.e., the demand cannot be split), and the total demand of the terminals in each tour does not exceed the capacity of 1. Our main result is a polynomial-time (2 + ϵ)-approximation algorithm for this problem in the two-dimensional Euclidean plane, i.e., for the special case where the terminals and the depot are associated with points in the Euclidean plane and their distances are defined accordingly. This improves on recent work by Blauth, Traub, and Vygen [IPCO'21] and Friggstad, Mousavi, Rahgoshay, and Salavatipour [IPCO'22].

KW - Euclidean plane

KW - approximation algorithms

KW - capacitated vehicle routing

U2 - 10.4230/LIPIcs.ITCS.2023.63

DO - 10.4230/LIPIcs.ITCS.2023.63

M3 - Conference contribution

AN - SCOPUS:85147549122

T3 - Leibniz International Proceedings in Informatics, LIPIcs

BT - 14th Innovations in Theoretical Computer Science Conference, ITCS 2023

A2 - Kalai, Yael Tauman

PB - Schloss Dagstuhl- Leibniz-Zentrum fur Informatik GmbH, Dagstuhl Publishing

Y2 - 10 January 2023 through 13 January 2023

ER -

Grandoni F, Mathieu C, Zhou H. Unsplittable Euclidean Capacitated Vehicle Routing: A (2 + ϵ)-Approximation Algorithm. In Kalai YT, editor, 14th Innovations in Theoretical Computer Science Conference, ITCS 2023. Schloss Dagstuhl- Leibniz-Zentrum fur Informatik GmbH, Dagstuhl Publishing. 2023. 63. (Leibniz International Proceedings in Informatics, LIPIcs). doi: 10.4230/LIPIcs.ITCS.2023.63

Unsplittable Euclidean Capacitated Vehicle Routing: A (2 + ϵ)-Approximation Algorithm

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