A metaheuristic approach for the multi-objective sustainable vehicle routing problem
A metaheuristic approach for the multi-objective sustainable vehicle routing problem
This study introduces the Multi-Objective Sustainable Vehicle Routing Problem (MOSVRP) with time windows, designed for congested urban networks. The model simultaneously addresses economic, environmental, and social sustainability by minimizing costs and emissions while maximizing customer satisfaction through enhanced service at pickup nodes. To manage the complexity of large-scale urban routing, we propose a novel Voronoi diagram-based network shrinking procedure that significantly reduces computational effort. More specifically, the model incorporates time-dependent traffic patterns to capture realistic urban conditions. For the solution, we propose a tailored metaheuristic, the enhanced Multi-Objective Volleyball Premier League algorithm (MOVPL), which incorporates reference point guidance, disruption operators, and adaptive weight adjustment. This hybrid approach effectively balances conflicting objectives and improves solution diversity. Applied to Tehran’s urban freight network, the proposed method demonstrates superior performance across all metrics compared to benchmark algorithms and exact methods. Results show notable reductions in fuel consumption and travel distance, alongside improved service equity. Furthermore, the framework offers a scalable and transferable solution for sustainable logistics in other urban contexts.
Moghdani, Reza
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Salimifard, Khodakaram
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Demir, Emrah
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Barak, Sasan
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Aazami, Adel
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Shekarabi, Seyed Ashkan Hosseini
3839a0f6-2a02-473f-a781-4599280775f2
Moghdani, Reza
f3ccdd7d-145d-4c95-bb47-23c1341df155
Salimifard, Khodakaram
028675b6-6cb1-42c8-b103-1460f99a2ab8
Demir, Emrah
e9ba3a62-5690-47aa-855f-d24e8278caeb
Barak, Sasan
f82186de-f5b7-4224-9621-a00e7501f2c3
Aazami, Adel
5e30f72a-df10-47ef-bd10-06703375c777
Shekarabi, Seyed Ashkan Hosseini
3839a0f6-2a02-473f-a781-4599280775f2
Moghdani, Reza, Salimifard, Khodakaram, Demir, Emrah, Barak, Sasan, Aazami, Adel and Shekarabi, Seyed Ashkan Hosseini
(2025)
A metaheuristic approach for the multi-objective sustainable vehicle routing problem.
Annals of Operations Research.
(In Press)
Abstract
This study introduces the Multi-Objective Sustainable Vehicle Routing Problem (MOSVRP) with time windows, designed for congested urban networks. The model simultaneously addresses economic, environmental, and social sustainability by minimizing costs and emissions while maximizing customer satisfaction through enhanced service at pickup nodes. To manage the complexity of large-scale urban routing, we propose a novel Voronoi diagram-based network shrinking procedure that significantly reduces computational effort. More specifically, the model incorporates time-dependent traffic patterns to capture realistic urban conditions. For the solution, we propose a tailored metaheuristic, the enhanced Multi-Objective Volleyball Premier League algorithm (MOVPL), which incorporates reference point guidance, disruption operators, and adaptive weight adjustment. This hybrid approach effectively balances conflicting objectives and improves solution diversity. Applied to Tehran’s urban freight network, the proposed method demonstrates superior performance across all metrics compared to benchmark algorithms and exact methods. Results show notable reductions in fuel consumption and travel distance, alongside improved service equity. Furthermore, the framework offers a scalable and transferable solution for sustainable logistics in other urban contexts.
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Accepted/In Press date: 14 October 2025
Identifiers
Local EPrints ID: 506809
URI: http://eprints.soton.ac.uk/id/eprint/506809
ISSN: 0254-5330
PURE UUID: 1cc1d647-0184-4f58-8975-fa5d0578467e
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Date deposited: 18 Nov 2025 18:03
Last modified: 19 Nov 2025 02:58
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Contributors
Author:
Reza Moghdani
Author:
Khodakaram Salimifard
Author:
Emrah Demir
Author:
Adel Aazami
Author:
Seyed Ashkan Hosseini Shekarabi
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