Opt-Sim approach for the gate allocation problem in covid-19 times

Proceedings of the 33rd European Modeling & Simulation Symposium Pub Date : 1900-01-01 DOI:10.46354/i3m.2021.emss.024

P. Scala

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Abstract

This study tackles the gate allocation problem (GAP) at the airport terminal, considering the current covid-19 pandemic restrictions. The GAP has been extensively studied by the research community in the last decades, as it represents a critical factor that determines an airport's capacity. Currently, the airport passenger terminal operations have been redesigned to be aligned and respect the covid-19 regulation worldwide. This provides operators with new challenges on how to handle the passengers inside the terminal. The purpose of this study is to come up with an efficient gate allocator that considers potential issues derived by the current pandemic, i.e., avoid overcrowded areas. A sim-opt approach has been developed where an evolutionary algorithm (EA) is used in combination with a dynamic passenger flow simulation model to find a feasible solution. The EA aims to find a (sub)optimal solution for the GAP, while the simulation model evaluates its efficiency and feasibility in a real-life scenario. To evaluate the potential of the Opt-Sim approach, it has been applied to a real airport case study. © 2021 The Authors.

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基于Opt-Sim的covid-19时代门限分配问题

考虑到当前covid-19大流行的限制，本研究解决了机场航站楼的登机口分配问题(GAP)。在过去的几十年里，研究界对GAP进行了广泛的研究，因为它是决定机场容量的一个关键因素。目前，机场客运航站楼的运营已经重新设计，以符合并尊重全球新冠肺炎法规。这为航空公司如何处理客运大楼内的乘客提供了新的挑战。本研究的目的是提出一种有效的门分配器，考虑到当前大流行带来的潜在问题，即避免过度拥挤的区域。提出了一种简化选择方法，将进化算法(EA)与动态客流仿真模型相结合，寻找可行的解决方案。EA旨在找到GAP的(次)最优解决方案，而仿真模型则评估其在现实场景中的效率和可行性。为了评估Opt-Sim方法的潜力，我们将其应用于一个真实的机场案例研究。©2021作者。

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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Proceedings of the 33rd European Modeling & Simulation Symposium

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