Stability metrics for a maritime inventory routing problem under sailing time uncertainty

Homayoun  Shaabani; Lars Magnus Hvattum; Gilbert Laporte; Arild Hoff

doi:10.1016/j.ejtl.2024.100146

Stability metrics for a maritime inventory routing problem under sailing time uncertainty

Homayoun Shaabani, Lars Magnus Hvattum, Gilbert Laporte, Arild Hoff

Research output: Contribution to journal › Article › peer-review

Abstract

We study a multi-product maritime inventory routing problem (MIRP) with sailing time uncertainty. We explicitly consider the replanning that happens after uncertainty is revealed. The objective is to determine the stability of the adjusted plans after the occurrence of an uncertain event and to evaluate the effect of incorporating different stability metrics in the rescheduling process. Five stability metrics are introduced, and mathematical formulations of the MIRP incorporating each metric are presented. A reoptimization framework is then used to analyze the impact of each stability metric. Calculations are performed using 360 instances. The main result is that adjustments to the original plan occur at no additional cost almost 50% of the time. If decision makers want a more stable plan, they should accept a 5% cost deterioration, resulting in 20% more stable solutions.

Original language	English
Article number	100146
Journal	Euro Journal on Transportation and Logistics
Volume	13
Early online date	25 Sept 2024
DOIs	https://doi.org/10.1016/j.ejtl.2024.100146
Publication status	Published - 31 Dec 2024

Keywords

Maritime inventory routing
Reoptimization
Stability metrics
Uncertainty

ASJC Scopus subject areas

Modelling and Simulation
Transportation
Management Science and Operations Research

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10.1016/j.ejtl.2024.100146Licence: CC BY

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title = "Stability metrics for a maritime inventory routing problem under sailing time uncertainty",

abstract = "We study a multi-product maritime inventory routing problem (MIRP) with sailing time uncertainty. We explicitly consider the replanning that happens after uncertainty is revealed. The objective is to determine the stability of the adjusted plans after the occurrence of an uncertain event and to evaluate the effect of incorporating different stability metrics in the rescheduling process. Five stability metrics are introduced, and mathematical formulations of the MIRP incorporating each metric are presented. A reoptimization framework is then used to analyze the impact of each stability metric. Calculations are performed using 360 instances. The main result is that adjustments to the original plan occur at no additional cost almost 50% of the time. If decision makers want a more stable plan, they should accept a 5% cost deterioration, resulting in 20% more stable solutions. ",

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doi = "10.1016/j.ejtl.2024.100146",

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AU - Shaabani, Homayoun

AU - Hvattum, Lars Magnus

AU - Laporte, Gilbert

AU - Hoff, Arild

PY - 2024/12/31

Y1 - 2024/12/31

N2 - We study a multi-product maritime inventory routing problem (MIRP) with sailing time uncertainty. We explicitly consider the replanning that happens after uncertainty is revealed. The objective is to determine the stability of the adjusted plans after the occurrence of an uncertain event and to evaluate the effect of incorporating different stability metrics in the rescheduling process. Five stability metrics are introduced, and mathematical formulations of the MIRP incorporating each metric are presented. A reoptimization framework is then used to analyze the impact of each stability metric. Calculations are performed using 360 instances. The main result is that adjustments to the original plan occur at no additional cost almost 50% of the time. If decision makers want a more stable plan, they should accept a 5% cost deterioration, resulting in 20% more stable solutions.

AB - We study a multi-product maritime inventory routing problem (MIRP) with sailing time uncertainty. We explicitly consider the replanning that happens after uncertainty is revealed. The objective is to determine the stability of the adjusted plans after the occurrence of an uncertain event and to evaluate the effect of incorporating different stability metrics in the rescheduling process. Five stability metrics are introduced, and mathematical formulations of the MIRP incorporating each metric are presented. A reoptimization framework is then used to analyze the impact of each stability metric. Calculations are performed using 360 instances. The main result is that adjustments to the original plan occur at no additional cost almost 50% of the time. If decision makers want a more stable plan, they should accept a 5% cost deterioration, resulting in 20% more stable solutions.

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KW - Reoptimization

KW - Stability metrics

KW - Uncertainty

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DO - 10.1016/j.ejtl.2024.100146

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Stability metrics for a maritime inventory routing problem under sailing time uncertainty

Abstract

Keywords

ASJC Scopus subject areas

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