Unsplittable Euclidean Capacitated Vehicle Routing: A $(2+Ξ΅)$-Approximation Algorithm

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Authors Fabrizio Grandoni, Claire Mathieu, Hang Zhou arXiv ID 2209.05520 Category cs.DS: Data Structures & Algorithms Citations 8 Venue Information Technology Convergence and Services Last Checked 4 months ago
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 $(2+Ξ΅)$-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].
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