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Symmetrical design of strategy-pairs for enplaning and deplaning an airplane

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  • Qiang, Sheng-Jie
  • Jia, Bin
  • Jiang, Rui
  • Huang, Qing-Xia
  • Radwan, Essam
  • Gao, Zi-You
  • Wang, Yu-Qing

Abstract

Enplaning and deplaning processes are two main activities that passengers experience in an airplane. They are also the main factors contributing to the airplane turn time. Thus, both processes need to be carefully considered when designing a new strategy. The main contribution of this paper is twofold. Firstly, we propose a symmetrical design of deplaning strategies to match three typical grouped enplaning strategies (back-to-front, windows-to-aisle and reverse pyramid), in which the groups are organized in a LIFO (Last In First Out) manner. Secondly, we present an integrated cellular automaton model to describe the dynamic characteristics of passengers in the enplaning and deplaning processes. Numerical evaluation results indicate that the proposed windows-to-aisle and reverse pyramid strategies perform better in the following aspects: (i) the total operation time decreases; (ii) the two strategies are less sensitive to the load condition, e.g., luggage distribution and cabin occupancy rate; (iii) passengers’ satisfaction is enhanced since both individual waiting time and processing time lower down; (iv) the two strategies are fairer for the passengers since the difference among the groups remarkably shrinks.

Suggested Citation

  • Qiang, Sheng-Jie & Jia, Bin & Jiang, Rui & Huang, Qing-Xia & Radwan, Essam & Gao, Zi-You & Wang, Yu-Qing, 2016. "Symmetrical design of strategy-pairs for enplaning and deplaning an airplane," Journal of Air Transport Management, Elsevier, vol. 54(C), pages 52-60.
  • Handle: RePEc:eee:jaitra:v:54:y:2016:i:c:p:52-60
    DOI: 10.1016/j.jairtraman.2016.03.020
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    References listed on IDEAS

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    1. Eitan Bachmat & Daniel Berend & Luba Sapir & Steven Skiena & Natan Stolyarov, 2009. "Analysis of Airplane Boarding Times," Operations Research, INFORMS, vol. 57(2), pages 499-513, April.
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    8. Qiang, Sheng-Jie & Jia, Bin & Xie, Dong-Fan & Gao, Zi-You, 2014. "Reducing airplane boarding time by accounting for passengers' individual properties: A simulation based on cellular automaton," Journal of Air Transport Management, Elsevier, vol. 40(C), pages 42-47.
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    Cited by:

    1. Ren, Xinhui & Xu, Xiaobing, 2018. "Experimental analyses of airplane boarding based on interference classification," Journal of Air Transport Management, Elsevier, vol. 71(C), pages 55-63.
    2. Hutter, Leonie & Jaehn, Florian & Neumann, Simone, 2019. "Influencing factors on airplane boarding times," Omega, Elsevier, vol. 87(C), pages 177-190.
    3. Picchi Scardaoni, Marco & Magnacca, Fabio & Massai, Andrea & Cipolla, Vittorio, 2021. "Aircraft turnaround time estimation in early design phases: Simulation tools development and application to the case of box-wing architecture," Journal of Air Transport Management, Elsevier, vol. 96(C).
    4. Tang, Tie-Qiao & Yang, Shao-Peng & Ou, Hui & Chen, Liang & Huang, Hai-Jun, 2018. "An aircraft boarding model accounting for group behavior," Journal of Air Transport Management, Elsevier, vol. 69(C), pages 182-189.
    5. Zeineddine, Hassan, 2021. "Reducing the effect of passengers’ non-compliance with aircraft boarding rules," Journal of Air Transport Management, Elsevier, vol. 92(C).

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