Multi-Objective Mixed-Integer Linear Programming for Dynamic Fleet Scheduling, Multi-Modal Transport Optimization, and Risk-Aware Logistics

Transportation planning is a complex process that aims to achieve the maximum level of effectiveness in terms of costs, usage of transport resources, reliability of deliveries, and minimizing the negative impact on the environment. Most traditional models focus on cost minimization at the expense of...

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Vydáno v:	Sustainability Ročník 17; číslo 10; s. 4707
Hlavní autoři:	Mohamed Alshabibi, Nawaf, Matar, Al-Hussein, H. Abdelati, Mohamed
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Basel MDPI AG 01.05.2025
Témata:	Case studies Compliance Cost control Cost reduction Decision making Deep learning Efficiency Emission standards Emissions control Energy consumption Linear programming Literature reviews Logistics Logistics services Maritime industry Multiple criteria decision making Planning Route optimization Scheduling Sustainability Technology application Traffic congestion Transportation schedules Variables Vehicles Egypt
ISSN:	2071-1050, 2071-1050
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Abstract	Transportation planning is a complex process that aims to achieve the maximum level of effectiveness in terms of costs, usage of transport resources, reliability of deliveries, and minimizing the negative impact on the environment. Most traditional models focus on cost minimization at the expense of risk, road dynamics, and emissions constraints. In contrast, the current paper presents a mixed-integer linear programming (MILP) model for scheduling fleets, selecting transportation modes in multiple modes of transportation, and meeting emissions regulation requirements according to dynamic transportation requirements. Risk-aware routing and taking the factor of congestion and CO2 emission limits proposed by the government into consideration, this model can offer a more efficient and flexible optimization strategy. From the case study, we observe the significant result that the proposed model achieves, a 23% reduction in transport costs, a 25% improvement in fleet use, a 33.3% decrease in the delivery delay, and a 24.6% decrease in CO2 emissions. The model dynamically delivers shipments utilizing both road and rail transportation and improves mode choice by minimizing idle vehicle time. This is confirmed through sensitivity analysis which addresses factors such as traffic congestion, changing fuel prices, and changing environmental standards.
AbstractList	Transportation planning is a complex process that aims to achieve the maximum level of effectiveness in terms of costs, usage of transport resources, reliability of deliveries, and minimizing the negative impact on the environment. Most traditional models focus on cost minimization at the expense of risk, road dynamics, and emissions constraints. In contrast, the current paper presents a mixed-integer linear programming (MILP) model for scheduling fleets, selecting transportation modes in multiple modes of transportation, and meeting emissions regulation requirements according to dynamic transportation requirements. Risk-aware routing and taking the factor of congestion and CO[sub.2] emission limits proposed by the government into consideration, this model can offer a more efficient and flexible optimization strategy. From the case study, we observe the significant result that the proposed model achieves, a 23% reduction in transport costs, a 25% improvement in fleet use, a 33.3% decrease in the delivery delay, and a 24.6% decrease in CO[sub.2] emissions. The model dynamically delivers shipments utilizing both road and rail transportation and improves mode choice by minimizing idle vehicle time. This is confirmed through sensitivity analysis which addresses factors such as traffic congestion, changing fuel prices, and changing environmental standards. Transportation planning is a complex process that aims to achieve the maximum level of effectiveness in terms of costs, usage of transport resources, reliability of deliveries, and minimizing the negative impact on the environment. Most traditional models focus on cost minimization at the expense of risk, road dynamics, and emissions constraints. In contrast, the current paper presents a mixed-integer linear programming (MILP) model for scheduling fleets, selecting transportation modes in multiple modes of transportation, and meeting emissions regulation requirements according to dynamic transportation requirements. Risk-aware routing and taking the factor of congestion and CO2 emission limits proposed by the government into consideration, this model can offer a more efficient and flexible optimization strategy. From the case study, we observe the significant result that the proposed model achieves, a 23% reduction in transport costs, a 25% improvement in fleet use, a 33.3% decrease in the delivery delay, and a 24.6% decrease in CO2 emissions. The model dynamically delivers shipments utilizing both road and rail transportation and improves mode choice by minimizing idle vehicle time. This is confirmed through sensitivity analysis which addresses factors such as traffic congestion, changing fuel prices, and changing environmental standards.
Audience	Academic
Author	Mohamed Alshabibi, Nawaf Matar, Al-Hussein H. Abdelati, Mohamed
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Cites_doi	10.1016/j.trb.2022.06.002 10.1016/j.oceaneng.2025.120956 10.1007/s00170-024-14121-6 10.1016/j.egyr.2022.01.161 10.1016/j.jclepro.2023.136357 10.1007/978-3-031-77432-4_7 10.1016/j.energy.2025.135096 10.1007/978-3-030-97162-5 10.1109/TIV.2023.3336523 10.1016/j.ejor.2021.07.031 10.2139/ssrn.5059008 10.1016/j.trb.2018.04.008 10.1186/s44147-023-00247-z 10.1108/SRT-06-2022-0013 10.1109/TITS.2022.3198178 10.1016/j.physa.2021.126301 10.1109/TIV.2018.2843163 10.3934/jimo.2024034 10.1108/IJPDLM-08-2019-0237 10.3390/logistics5020041 10.1109/INFCOM.2010.5462168 10.3390/su15076309 10.1109/SOLI.2017.8120985 10.1007/978-3-030-87120-8_2 10.25103/jestr.175.04 10.1002/9781118577202 10.1007/s40819-021-00961-3
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SubjectTerms	Case studies Compliance Cost control Cost reduction Decision making Deep learning Efficiency Emission standards Emissions control Energy consumption Linear programming Literature reviews Logistics Logistics services Maritime industry Multiple criteria decision making Planning Route optimization Scheduling Sustainability Technology application Traffic congestion Transportation schedules Variables Vehicles
Title	Multi-Objective Mixed-Integer Linear Programming for Dynamic Fleet Scheduling, Multi-Modal Transport Optimization, and Risk-Aware Logistics
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