Multi-Objective Takeoff Time Optimization Using Cellular Automaton-Based Simulator

Sekine, Katsuhiro; Tatsukawa, Tomoaki; Itoh, Eri; Fujii, Kozo

doi:10.1109/access.2021.3084215

Cited by 6 publications

(1 citation statement)

References 56 publications

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“…For air traffic flow, CA simulations are widely used to optimize the alignment of arrival aircraft [19], [20]. Sekine et al [21] conducted a step-back CA simulation for arrival traffic flow at Tokyo International Airport to minimize the total arrival delay and total fuel consumption. In recent years, it has been applied to surface traffic flow.…”

Section: Introductionmentioning

confidence: 99%

Analyzing Stochastic Features in Airport Surface Traffic Flow Using Cellular Automaton: Tokyo International Airport

et al. 2022

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Global air passenger transport demand is expected to increase, and there is concern that the current airport operation will not be able to cope with aircraft overcrowding. In this study, we developed a cellular automaton simulator that can model the surface traffic of the entire Tokyo International Airport in detail, including aircraft that are arriving, taxiing, parking, and departing, using actual track data. The simulator can reproduce stop-and-go aircraft taxiing based on aircraft interactions and runway rules. It can simulate the stochastic features of the surface traffic flow. To validate the developed CA simulation, the taxiing speed distribution, local delays, and taxiing times for each route were compared with the actual track data. They were in good agreement. The effects of stochastic surface traffic features, such as arrival rate, runway occupancy time, and taxiing route, on airport operations were quantitatively analyzed. This tool could lead to a better prediction of future air traffic and improve airport operations.

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Section: Introductionmentioning

confidence: 99%

Analyzing Stochastic Features in Airport Surface Traffic Flow Using Cellular Automaton: Tokyo International Airport

et al. 2022

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A review on air traffic flow management optimization: trends, challenges, and future directions

Aditya,

Aswin,

Dhaneesh

et al. 2024

Discov Sustain

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Air Traffic Flow Management (ATFM) is the backbone of modern aviation and ensures that aircraft move safely and efficiently through increasingly congested skies. As global air travel grows, managing air traffic has become more pressing than ever. This review assesses ten years of the ATFM literature, the period between 2014 and 2024, and discusses 162 studies published in peer-reviewed journals. Employing VOSViewer and Biblioshiny, this review analyzes the history of ATFM research. It explores the trends and gaps in research, which suggest there is room for improvement for more sound approaches. While optimization techniques have significantly improved efficiency and eased bottlenecks, the future lies in real-time solutions that can handle unpredictable events, from weather disruptions to technical failures. The review identified key areas for optimizing ATFM, categorized by primary focus: delay minimization, airspace congestion, and scheduling. It suggests ways in which more dynamic ATFM systems are possible in the growing global aviation network. By synthesizing the current research landscape, this review addresses the progress made. It offers a roadmap for future innovations that will enhance the safety, efficiency, and sustainability of air traffic management.

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Quick taxi route assignment via real-time intersection state prediction with a spatial-temporal graph neural network

Wang,

Bi,

Xie

et al. 2024

Transportation Research Part C: Emerging Technologies

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Multi-Objective Takeoff Time Optimization Using Cellular Automaton-Based Simulator

Cited by 6 publications

References 56 publications

Analyzing Stochastic Features in Airport Surface Traffic Flow Using Cellular Automaton: Tokyo International Airport

Analyzing Stochastic Features in Airport Surface Traffic Flow Using Cellular Automaton: Tokyo International Airport

A review on air traffic flow management optimization: trends, challenges, and future directions

Quick taxi route assignment via real-time intersection state prediction with a spatial-temporal graph neural network

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