Goods consumed during transit in split delivery vehicle routing problems: Modeling and solution

Goods consumed during transit in split delivery vehicle routing problems: Modeling and solution

This article presents the modeling and solution of an extended type of split delivery vehicle routing problem (SDVRP). In SDVRP, the demands of customers need to be met by efficiently routing a given number of capacitated vehicles, wherein each customer may be served multiple times by more than one...

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Bibliographic Details
Main Authors: YANG, Wenzhe, WANG, Di, PANG, Wei, TAN, Ah-Hwee, ZHOU, You
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2020
Subjects:
Vehicle routing
Heuristic algorithms
Routing
Optimization
Mathematical model
Fuels
Loading
Split delivery vehicle routing problem (SDVRP)
goods consumed during transit
optimization
ant colony algorithms
Databases and Information Systems
Operations Research, Systems Engineering and Industrial Engineering
Transportation
Online Access:https://ink.library.smu.edu.sg/sis_research/5263
https://ink.library.smu.edu.sg/context/sis_research/article/6266/viewcontent/Goods_Consumed_2020_pvoa.pdf
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Institution: Singapore Management University
Language: English
Description
Summary:This article presents the modeling and solution of an extended type of split delivery vehicle routing problem (SDVRP). In SDVRP, the demands of customers need to be met by efficiently routing a given number of capacitated vehicles, wherein each customer may be served multiple times by more than one vehicle. Furthermore, in many real-world scenarios, consumption of vehicles en route is the same as the goods being delivered to customers, such as food, water and fuel in rescue or replenishment missions in harsh environments. Moreover, the consumption may also be in virtual forms, such as time spent in constrained tasks. We name such a real-world SDVRP as Split Delivery Vehicle Routing Problem with Goods Consumed during Transit (SDVRP-GCT). In this paper, we give mathematical formulas to model SDVRP-GCT and provide solutions by extending three ant colony algorithms. To the best of our knowledge, this is the first research work specifically focussing on the SDVRP-GCT problem and its solutions. To assess the effectiveness of our proposed ant colony algorithms, we first apply them on widely adopted SDVRP benchmarking instances on different scales and their correspondingly extended SDVRP-GCT instances. Then, we formulate a real-world SDVRP-GCT instance for further assessment. Based on the extensive experimental results, we discuss the pros and cons of our proposed solutions and subsequently suggest their preferable application scenarios. In summary, our proposed solutions are shown as highly efficient in solving SDVRP-GCT instances.

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