Optimization Model Based on Reachability Guarantee for Emergency Facility Location and Link Reinforcement

Yu, Wuyang; Liu, Jijun

doi:10.1155/2020/4648908

Cited by 7 publications

(3 citation statements)

References 32 publications

(53 reference statements)

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“…Notably, the model's results, derived from matrix encoding, accompanied by associated evolutionary operators and coupled with Pareto-based multi-objective evolutionary algorithms, showed the potential for effective location decisions based on decision criteria assigned by stakeholders (Men et al, 2020). Yu and Liu (2020), embedding the max-flow problem of the reachability guarantee into the emergency facility location problem, evaluated the location of emergency assets while accounting for damage tolerances in lieu of link failure. In essence, the model optimized the location of emergency assets assuming some links, as part of the deployment of such assets, would first require restoration (Yu & Liu, 2020).Overall, the bi-objective optimization model assessed combinations of primary depots and secondary depots for demand points, which minimized network costs and enhanced reachability, respectively.…”

Section: Literature Reviewmentioning

confidence: 99%

“…Yu and Liu (2020), embedding the max-flow problem of the reachability guarantee into the emergency facility location problem, evaluated the location of emergency assets while accounting for damage tolerances in lieu of link failure. In essence, the model optimized the location of emergency assets assuming some links, as part of the deployment of such assets, would first require restoration (Yu & Liu, 2020).Overall, the bi-objective optimization model assessed combinations of primary depots and secondary depots for demand points, which minimized network costs and enhanced reachability, respectively. Yu (2021) incorporated randomness and uncertainty within two stages of the pre-disaster location and storage model.…”

Section: Literature Reviewmentioning

confidence: 99%

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Optimized Location and Assignment of Emergency Response Assets in Offshore Energy Basins

Navarre,

Stevens

2024

JABE

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The global energy industry engages in exploration, drilling, production, and abandonment activities in pursuit of crude oil and natural gas. This paper provides a methodology to optimize the location and assignment of oil spill response containment systems to limit environmental damage. Utilizing 1,802 active offshore sites and 13 eligible service depots in the Gulf of Mexico’s offshore energy basin, this study locates and assigns deployable land-based containment systems while evaluating the progressive enhancement of including additional service depots. The model solves the practical problem of locating and allocating oil spill containment systems to a global optimum. Adding service depots reduces the average distance, or travel time, of response vessels, which minimizes the dispersion of the oil spill. This study represents a critical component of a broader emergency oil spill response plan. Specifically, it addresses the preparation phase of a comprehensive oil spill response plan, which is preceded by the mitigation phase and followed by the response and recovery phases.

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Section: Literature Reviewmentioning

confidence: 99%

Section: Literature Reviewmentioning

confidence: 99%

Optimized Location and Assignment of Emergency Response Assets in Offshore Energy Basins

Navarre,

Stevens

2024

JABE

View full text Add to dashboard Cite

show abstract

“…In the previous research studies, the studies about rescue in emergency mainly include rescue methodology [16], rescue architecture [17,18], accessibility of emergency service [19], emergency resource allocation [20][21][22][23][24][25][26][27][28], the determination of the medical rescue demand [29], the prediction of the emergency material demand [9][10][11][12][13][14][15], fre rescue prediction [30], emergency rescue location model [31], emergency rescue service model [32], and rescue performance [33].…”

Section: Literature Reviewmentioning

confidence: 99%

Road Rescue Demand Prediction for the Improvement of Traffic System Resilience

Yang

2023

Journal of Advanced Transportation

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Road rescue can provide rescue services for faulty vehicles, such as fuel delivery, tire replacement, battery connection, on-site repair, clearing, and towing, which plays an important role in reducing casualties and property losses in traffic accidents. Based on the historical data of road rescue, this paper analyzes the influencing factors of the road rescue demand and establishes a prediction model of the road rescue demand without data grouping. In order to further improve the prediction accuracy, the data are divided into nine groups according to the importance of the influencing factors, and nine submodels are established for the nine groups of data. When the influencing factors are known, the submodel corresponding to the most important influencing factor is selected to predict the road rescue demand. A case study in Beijing is used to verify the effectiveness and superiority of the proposed models, which can effectively predict the road rescue demand under various conditions, including the normal condition, the Spring Festival, National Day, the three-day holiday (e.g., Qingming, May Day, the Dragon Boat Festival, the Mid-Autumn Festival, and New Year’s Day,), and extreme weather (e.g., low temperature, high temperature, heavy snow, heavy rain, and rainstorm). The research findings can provide scientific basis for the rescue department to deploy rescue equipment and rescue personnel in advance, raise the efficiency and quality of rescue, and improve the resilience of the transportation system.

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An Emergency Shelter Location Model Based on the Sense of Security and the Reliability Level

Wang

2023

J. Syst. Sci. Syst. Eng.

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Optimization Model Based on Reachability Guarantee for Emergency Facility Location and Link Reinforcement

Cited by 7 publications

References 32 publications

Optimized Location and Assignment of Emergency Response Assets in Offshore Energy Basins

Optimized Location and Assignment of Emergency Response Assets in Offshore Energy Basins

Road Rescue Demand Prediction for the Improvement of Traffic System Resilience

An Emergency Shelter Location Model Based on the Sense of Security and the Reliability Level

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