Air-rail intermodal collaborative decision making for aircraft recovery from airport station disruption

IF 4.1 2区工程技术 Q2 BUSINESS

Research in Transportation Business and Management Pub Date : 2024-11-25 DOI:10.1016/j.rtbm.2024.101240

Fang Sun , Shenglu Wang , Ziyue Hu , Yu Zhang , Lunlong Zhong

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引用次数: 0

Abstract

During airport disruptions caused by capacity shortages, it is crucial for airlines to have an effective recovery plan to minimize losses and prevent the spread of disruptions and delays. This study proposes an air-rail intermodal Collaborative Decision Making (CDM) approach, which recommends incorporating High-Speed Railway (HSR) transportation into the management of aircraft recovery from airport station disruptions. The structural properties of the proposed model indicate employing a Lagrangian relaxation with subgradient methods to effectively obtain near-optimal solutions. A framework for developing Lagrangian heuristics (heuristics based on Lagrangian relaxation and sub-gradient optimization) is proposed to obtain solutions. Additionally, the study proposes a modified aircraft recovery model considering the downstream effects of flight delays and cancellations during the airport disruption recovery period and introduces slack variables to linearize the model. The computational experiments conducted in this study demonstrate the effectiveness of the proposed air-rail intermodal strategy for managing airport disruptions. Experiments conducted on large-scale datasets demonstrate that the Lagrangian Relaxation method outperforms both the Benders method and the Genetic Algorithm in terms of both computational speed and solution quality.

This research provides valuable insights into the management of airport disruptions and offers practical solutions for airlines to mitigate the impact of capacity shortages.

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机场站中断后飞机恢复的空铁联运协作决策

在机场因运力不足而中断时，航空公司必须制定有效的恢复计划，以最大限度地减少损失，并防止中断和延误的蔓延。本研究提出了一种空铁联运协同决策（CDM）方法，建议将高速铁路（HSR）运输纳入飞机从机场站中断中恢复的管理中。拟议模型的结构特性表明，采用拉格朗日松弛法和次梯度法可有效获得近似最优解。研究提出了一个开发拉格朗日启发式方法（基于拉格朗日松弛和子梯度优化的启发式方法）的框架，以获得解决方案。此外，该研究还提出了一个修改后的飞机恢复模型，考虑到了机场中断恢复期间航班延误和取消的下游影响，并引入了松弛变量使模型线性化。本研究中进行的计算实验证明了所提出的空铁联运策略在管理机场中断方面的有效性。在大规模数据集上进行的实验表明，拉格朗日松弛法在计算速度和解决方案质量方面均优于本德斯法和遗传算法。这项研究为机场中断管理提供了宝贵的见解，并为航空公司减轻运力短缺的影响提供了实用的解决方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Research in Transportation Business and Management Multiple-

CiteScore

7.10

自引率

8.30%

发文量

175

期刊介绍： Research in Transportation Business & Management (RTBM) will publish research on international aspects of transport management such as business strategy, communication, sustainability, finance, human resource management, law, logistics, marketing, franchising, privatisation and commercialisation. Research in Transportation Business & Management welcomes proposals for themed volumes from scholars in management, in relation to all modes of transport. Issues should be cross-disciplinary for one mode or single-disciplinary for all modes. We are keen to receive proposals that combine and integrate theories and concepts that are taken from or can be traced to origins in different disciplines or lessons learned from different modes and approaches to the topic. By facilitating the development of interdisciplinary or intermodal concepts, theories and ideas, and by synthesizing these for the journal''s audience, we seek to contribute to both scholarly advancement of knowledge and the state of managerial practice. Potential volume themes include: -Sustainability and Transportation Management- Transport Management and the Reduction of Transport''s Carbon Footprint- Marketing Transport/Branding Transportation- Benchmarking, Performance Measurement and Best Practices in Transport Operations- Franchising, Concessions and Alternate Governance Mechanisms for Transport Organisations- Logistics and the Integration of Transportation into Freight Supply Chains- Risk Management (or Asset Management or Transportation Finance or ...): Lessons from Multiple Modes- Engaging the Stakeholder in Transportation Governance- Reliability in the Freight Sector