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An Efficient Airline Re-Fleeting Model for the Incremental Modification of Planned Fleet Assignments

Author

Listed:
  • Ahmad I. Jarrah

    (Transport Dynamics, Inc., Princeton, New Jersey 08540)

  • Jon Goodstein

    (United Airlines, Corporate Research and Development, WHQKB, 1200 E. Algonquin Rd., Elk Grove, Illinois 60007)

  • Ram Narasimhan

    (United Airlines, Corporate Research and Development, WHQKB, 1200 E. Algonquin Rd., Elk Grove, Illinois 60007)

Abstract

Airlines typically manage their annual business cycle by subdividing the year into a sequence of scheduling periods that span about a month each. Fleet assignment represents an important step in the planning process for each new scheduling period and is usually undertaken using computer-based optimization models. Once an initial fleet assignment solution is achieved and before “freezing” the assignments, planners spend significant effort in analyzing, modifying, and committing the individual components of the solution throughout the flight network. This manual step results in local modifications to the initial solution, and is necessary to reflect business judgment calls that cannot be captured by the optimization model. In addition, planners find it imperative to modify the initial fleet assignment solution to react to inevitable changes to the planning environment related to the planned schedule, demand forecast, number of available aircraft, crew staffing levels, and a host of other scheduling constraints. The above-described process of incrementally fine-tuning and modifying the initial fleet assignment solution is referred to as re-fleeting. It is characterized by (1) the requirement of quick solution time to allow frequent re-fleeting exercises, (2) the need for multiple alternative high-quality solutions to choose from, and (3) the constraint that the new solution differs from the prior one in a controlled and limited fashion. We demonstrate in this paper that global fleet assignment model formulations can be used to address the re-fleeting problem in an effective fashion.

Suggested Citation

  • Ahmad I. Jarrah & Jon Goodstein & Ram Narasimhan, 2000. "An Efficient Airline Re-Fleeting Model for the Incremental Modification of Planned Fleet Assignments," Transportation Science, INFORMS, vol. 34(4), pages 349-363, November.
    • Handle: RePEc:inm:ortrsc:v:34:y:2000:i:4:p:349-363
    DOI: 10.1287/trsc.34.4.349.12324
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    References listed on IDEAS

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    1. L. W. Clarke & C. A. Hane & E. L. Johnson & G. L. Nemhauser, 1996. "Maintenance and Crew Considerations in Fleet Assignment," Transportation Science, INFORMS, vol. 30(3), pages 249-260, August.
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    Cited by:

    1. Stojkovic, Goran & Soumis, François & Desrosiers, Jacques & Solomon, Marius M., 2002. "An optimization model for a real-time flight scheduling problem," Transportation Research Part A: Policy and Practice, Elsevier, vol. 36(9), pages 779-788, November.
    2. Sami Gabteni & Mattias Grönkvist, 2009. "Combining column generation and constraint programming to solve the tail assignment problem," Annals of Operations Research, Springer, vol. 171(1), pages 61-76, October.
    3. Pandit, Partha Kumar & Akhtar Hasin, M. Ahsan, 2018. "Business model of aircraft fleet planning using ANN," Chapters from the Proceedings of the Hamburg International Conference of Logistics (HICL), in: Kersten, Wolfgang & Blecker, Thorsten & Ringle, Christian M. (ed.), The Road to a Digitalized Supply Chain Management: Smart and Digital Solutions for Supply Chain Management. Proceedings of the Hamburg International C, volume 25, pages 221-247, Hamburg University of Technology (TUHH), Institute of Business Logistics and General Management.
    4. Hanif D. Sherali & Ebru K. Bish & Xiaomei Zhu, 2005. "Polyhedral Analysis and Algorithms for a Demand-Driven Refleeting Model for Aircraft Assignment," Transportation Science, INFORMS, vol. 39(3), pages 349-366, August.
    5. Sherali, Hanif D. & Bish, Ebru K. & Zhu, Xiaomei, 2006. "Airline fleet assignment concepts, models, and algorithms," European Journal of Operational Research, Elsevier, vol. 172(1), pages 1-30, July.
    6. Abdelghany, Ahmed & Abdelghany, Khaled & Azadian, Farshid, 2023. "The airline seat capacity allocation problem: An expected marginal profit approach," Journal of Air Transport Management, Elsevier, vol. 112(C).
    7. Warburg, Valdemar & Gotsæd Hansen, Troels & Larsen, Allan & Norman, Hans & Andersson, Erik, 2008. "Dynamic airline scheduling: An analysis of the potentials of refleeting and retiming," Journal of Air Transport Management, Elsevier, vol. 14(4), pages 163-167.

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