Abstract
In some special rescue scenarios, the needed goods should be transported by drones because of the landform. Therefore, in this study, we investigate a multi-objective vehicle routing problem with time window and drone transportation constraints. The vehicles are used to transport the goods and drones to customer locations, while the drones are used to transport goods vertically and timely to the customer. Three types of objectives are considered simultaneously, including minimization of the total energy consumption of the trucks, total energy consumption of the drones, and the total number of trucks. An improved artificial bee colony algorithm is designed to solve the problem. In the proposed algorithm, each solution is represented by a two-dimensional vector, and the initialization method based on the Push-Forward Insertion Heuristic is embedded. To enhance the exploitation abilities, an improved employed heuristic is developed to perform detailed local search. Meanwhile, a novel scout bee strategy is presented to improve the global search abilities of the proposed algorithm. Several instances extended from the Solomon instances are used to test the performance of the proposed improved artificial bee colony algorithm. Experimental comparisons with the other efficient algorithms in the literature verify the competitive performance of the proposed algorithm.
Highlights
The utilization of smart manufacturing and intelligent devices has greatly promoted the transforming of traditional industries.[1]
Numerous excellent enterprises have invested various drones to deliver their commodities[6,7] while many researchers have concentrated on the vehicle routing problem with drones (VRPD),[8,9,10,11,12] which can be observed as an extended version of the vehicle routing problem (VRP).[13]
This article proposes a novel vehicle routing problem with time window (VRPTW) for the special customers must be served by trucks and drones
Summary
The utilization of smart manufacturing and intelligent devices has greatly promoted the transforming of traditional industries.[1]. Chang and Lee established a model for one truck equipped a set of drones.[27] Wang et al studied a group of trucks with several drones.[10] Murray and Chu designed a dispatching manner in which one drone cooperates with one truck to serve a fleet of customers.[8] another valuable research direction involving the VRPD is the vehicle routing problem with time window and drones (VRPTWD).[28,29] Guerriero et al proposed a VRPTWD model considering the soft time window and customer satisfactions.[28] Phan and Suzuki studied a multi-objective optimization problem of VRPTWD with the constraints of simultaneous receiving and dispatching.[30] In a nutshell, the VRP with drones should be taken more and more research focuses, especially in special scenarios, such as the disaster relief.[15,31,32].
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