A cooperative waiting strategy based on elliptical areas for the Dynamic Pickup and Delivery Problem with Time Windows |
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Authors: | David Escuín Emilio Larrodé Carlos Millán |
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Affiliation: | 1. ITAINNOVA—Instituto Tecnológico de Aragón, Spain;2. University of Zaragoza, Spain |
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Abstract: | The purpose of this paper to present a cooperative scheduling algorithm for solving the Dynamic Pickup and Delivery Problem with Time Windows (DPDPTW). The idea behind cooperative waiting strategies is to calculate simultaneously the waiting times for all nodes in the solution. Classical non‐cooperative scheduling algorithms perform the scheduling for each route independently of the scheduling of the other routes. We present the Cooperative Scheduling Problem (CSP) based on the elliptical areas generated by vehicles waiting at their nodes. The CSP is solved by means of a genetic algorithm and is evaluated by using a set of benchmarks based on real‐life data found in the literature. Initially, two waiting strategies are presented: Wait‐Early‐Time scheduling and Balanced‐Departure scheduling. Extensive empirical simulations have been carried out by analyzing the degree of dynamism and the average waiting time, a new concept defined to take into account the gap between the time windows of pickup and delivery nodes. Copyright © 2016 John Wiley & Sons, Ltd. |
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Keywords: | scheduling dynamic vehicle routing problem pickup and delivery genetic algorithm ellipses |
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