Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5127539 | Computers & Industrial Engineering | 2017 | 9 Pages |
â¢We propose a new criterion for the robust vehicle routing problem.â¢We propose several integer linear models based on discrete scenario optimization for simulating uncertain events.â¢We propose an efficient metaheuristic for solving large-scale instances.â¢The model based on the new criterion generally outperforms the classical models in a majority of cases.
This article investigates a new robust criterion for the vehicle routing problem with uncertainty on the travel time. The objective of the proposed criterion is to find a robust solution which displays better behaviour on a majority of scenarios, where each scenario represents a potential state of an uncertain event. In order to highlight the robustness of the proposed approach, the new robust criterion is compared with the classical robust criteria, such as best-case, worst-case and min-max deviation. Inspired from the mechanism developed by B. Roy for evaluating the robustness, this paper focuses on providing two robust conclusions for the new robust criterion: perfectly robust and pseudo robust. For the perfectly robust, the robust criterion is evaluated by using an exact method on a set of 480 small-scale instances generated from Solomon's benchmark instances. For the pseudo robust, the robust criterion is evaluated by using a metaheuristic on a set of 54 medium-scale and large-scale instances. The numerical results show that the new approach is able to produce the robust solutions in a majority of cases.