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Minimizing airline and passenger delay cost in airport surface and terminal airspace operations

Author

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  • Serhan, Duaa
  • Lee, Hanbong
  • Yoon, Sang Won

Abstract

This research studies the effectiveness of incorporating airline and passenger delay cost (APDC) into an integrated airport surface and terminal airspace (ASTA) traffic management system. Most air traffic management systems typically schedule aircraft with an assumption that all flights want to be operated along the minimum fuel trajectory. However, airlines and passengers may have other preferences that can significantly influence flight schedules. Therefore, the objective of this research is to investigate the effect of incorporating APDC to ASTA scheduling, while ensuring safety. A mixed integer nonlinear programming model (MINLP-APDC) and a swap separation violating aircraft heuristic model (SSVA-APDC) are developed to minimize the cost of delays for airlines and passengers. The proposed approaches are compared to the first-come, first-serve heuristic and two integrated scheduling algorithms for ASTA operations: 1) minimizing runway makespan (MINLP-RM); and 2) minimizing flight delays (MINLP-FD). The experimental results show that the proposed approaches save at least 1.2% APDC compared to other approaches. The proposed approaches can also achieve at least 3.0% fewer flight delays than the MINLP-RM model without increasing either runway or schedule makespan. Compared to MINLP-FD, the MINLP-APDC model increases flight delays by on average 3.7% while the SSVA-APDC model achieves on average 15.1% more flight delays. Although the MINLP-APDC model outperforms the SSVA-APDC heuristic in terms of APDC and flight delays, it requires more than 30 min of computational time. Meanwhile, the SSVA-APDC heuristics requires only a few seconds to provide a feasible flight schedule, which makes it more practical.

Suggested Citation

  • Serhan, Duaa & Lee, Hanbong & Yoon, Sang Won, 2018. "Minimizing airline and passenger delay cost in airport surface and terminal airspace operations," Journal of Air Transport Management, Elsevier, vol. 73(C), pages 120-133.
    • Handle: RePEc:eee:jaitra:v:73:y:2018:i:c:p:120-133
    DOI: 10.1016/j.jairtraman.2018.07.001
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    References listed on IDEAS

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    1. Zhou, Hong & Cheung, Waiman & Leung, Lawrence C., 2009. "Minimizing weighted tardiness of job-shop scheduling using a hybrid genetic algorithm," European Journal of Operational Research, Elsevier, vol. 194(3), pages 637-649, May.
    2. Guépet, Julien & Briant, Olivier & Gayon, Jean-Philippe & Acuna-Agost, Rodrigo, 2017. "Integration of aircraft ground movements and runway operations," Transportation Research Part E: Logistics and Transportation Review, Elsevier, vol. 104(C), pages 131-149.
    3. Cynthia Barnhart & Douglas Fearing & Vikrant Vaze, 2014. "Modeling Passenger Travel and Delays in the National Air Transportation System," Operations Research, INFORMS, vol. 62(3), pages 580-601, June.
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    Cited by:

    1. Martina Zámková & Luboš Střelec & Martin Prokop & Radek Stolín, 2021. "Flight Delay Causes at Selected Visegrad Group International Airports," European Journal of Business Science and Technology, Mendel University in Brno, Faculty of Business and Economics, vol. 7(1), pages 91-108.
    2. de Oliveira, McWillian & Eufrásio, Ana Beatriz Rebouças & Guterres, Marcelo Xavier & Murça, Mayara Condé Rocha & Gomes, Rogéria de Arantes, 2021. "Analysis of airport weather impact on on-time performance of arrival flights for the Brazilian domestic air transportation system," Journal of Air Transport Management, Elsevier, vol. 91(C).
    3. Xiao, Mei & Chien, Steven & Schonfeld, Paul & Hu, Dawei, 2020. "Optimizing flight equencing and gate assignment considering terminal configuration and walking time," Journal of Air Transport Management, Elsevier, vol. 86(C).
    4. Park, Dong Kie & Kim, Jin Ki, 2023. "Influential factors to aircraft taxi time in airport," Journal of Air Transport Management, Elsevier, vol. 106(C).

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