The time-dependent electric vehicle routing problem with drone and synchronized mobile battery swapping

The time-dependent electric vehicle routing problem with drone and synchronized mobile battery swapping

Authors: Ren, X.-X.; Fan, H.-M.; Bao, M.-X.; Fan, H.

Advanced Engineering Informatics - 2023 Volume 57

Logistics enterprises are moving towards high efficiency and green. As an emerging technology, unmanned aerial vehicle (UAV, also known as drone) is very useful to cope with flexible and fast delivery. Electric vehicles (EVs), as new energy vehicles, are the technical support for green logistics development. This paper considers the last-mile delivery system in which a fleet of homogeneous EVs, equipped with a UAV each, serve a set of customers, and meanwhile battery swapping vehicles (BSVs) offer mobile battery swapping service for EVs. A mixed integer programming (MIP) model is formulated to minimize the sum of depreciation cost, driver wages and energy consumption cost of EVs, UAVs, and BSVs, by considering the nonlinear energy consumption of each vehicle, time-dependent speeds of EVs and BSVs and monetary time value on depreciation cost. A large neighborhood search algorithm based on Q-learning (LNS-QL) is designed in which Q-learning is used to select a combination of tailored destroy and repair operators to solve three sub-problems, (1) the UAV multi-visit problem, (2) the EV and UAV synchronized scheduling problem, (3) the EV and BSV synchronized mobile battery swapping problem. Besides, this paper also designs Lagrangian relaxation algorithm for comparison with LNS-QL. Extensive experiments verify the correctness of the model by testing small-scale instances. Further analysis demonstrates the accuracy and stability of LNS-QL on medium and large-scale instances as well as computational time and verifies the effectiveness of the mobile battery swapping mode in the cooperative delivery system of EVs and UAVs. Actual cases analyze the characteristics of EV delivery from the cost and emissions perspectives by comparing with FV delivery. © 2023 Elsevier Ltd

https://doi.org/10.1016/j.aei.2023.102071

Cite as:

@article{Ren_2023,
	doi = {10.1016/j.aei.2023.102071},
	url = {https://doi.org/10.1016%2Fj.aei.2023.102071},
	year = 2023,
	month = {aug},
	publisher = {Elsevier {BV}},
	volume = {57},
	pages = {102071},
	author = {Xiao-Xue Ren and Hou-Ming Fan and Ming-Xin Bao and Hao Fan},
	title = {The time-dependent electric vehicle routing problem with drone and synchronized mobile battery swapping},
	journal = {Advanced Engineering Informatics}
}



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