Motivated by rising concerns regarding global warming and traffic congestion effects, we study the time-dependent green vehicle routing problem with time windows (TDGVRPTW), aiming to minimize carbon emissions. The TDGVRPTW is a variant of the time-dependent vehicle routing problem (TDVRP) in which, in addition to the time window constraints, the minimization of carbon emissions requires determination of the optimal departure times for vehicles, from both the depot and customer location(s). Accordingly, the first exact method based on a branch-cut-and-price (BCP) algorithm is proposed for solving the TDGVRPTW. We introduce the notation of a time-dependent (TD) arc and describe how to identify the nondominated TD arcs in terms of arc departure times. In this way, we reduce infinitely many TD arcs to a finite set of nondominated TD arcs. We design a state-of-the-art BCP algorithm for the TDGVRPTW with labeling and limited memory subset row cuts, together with effective dominance rules for eliminating dominated TD arcs. The exact method is tested on a set of test instances derived from benchmark instances proposed in the literature. The results show the effectiveness of the proposed exact method in solving TDGVRPTW instances involving up to 100 customers.

Liu Y., Yu Y., Zhang Y., Baldacci R., Tang J., Luo X., et al. (2023). Branch-Cut-and-Price for the Time-Dependent Green Vehicle Routing Problem with Time Windows. INFORMS JOURNAL ON COMPUTING, 35(1), 14-30 [10.1287/ijoc.2022.1195].

Branch-Cut-and-Price for the Time-Dependent Green Vehicle Routing Problem with Time Windows

Baldacci R.;
2023

Abstract

Motivated by rising concerns regarding global warming and traffic congestion effects, we study the time-dependent green vehicle routing problem with time windows (TDGVRPTW), aiming to minimize carbon emissions. The TDGVRPTW is a variant of the time-dependent vehicle routing problem (TDVRP) in which, in addition to the time window constraints, the minimization of carbon emissions requires determination of the optimal departure times for vehicles, from both the depot and customer location(s). Accordingly, the first exact method based on a branch-cut-and-price (BCP) algorithm is proposed for solving the TDGVRPTW. We introduce the notation of a time-dependent (TD) arc and describe how to identify the nondominated TD arcs in terms of arc departure times. In this way, we reduce infinitely many TD arcs to a finite set of nondominated TD arcs. We design a state-of-the-art BCP algorithm for the TDGVRPTW with labeling and limited memory subset row cuts, together with effective dominance rules for eliminating dominated TD arcs. The exact method is tested on a set of test instances derived from benchmark instances proposed in the literature. The results show the effectiveness of the proposed exact method in solving TDGVRPTW instances involving up to 100 customers.
2023
Liu Y., Yu Y., Zhang Y., Baldacci R., Tang J., Luo X., et al. (2023). Branch-Cut-and-Price for the Time-Dependent Green Vehicle Routing Problem with Time Windows. INFORMS JOURNAL ON COMPUTING, 35(1), 14-30 [10.1287/ijoc.2022.1195].
Liu Y.; Yu Y.; Zhang Y.; Baldacci R.; Tang J.; Luo X.; Sun W.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/954730
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