Optimization-simulation implementations for harmonizing operations at large airports
Optimization and simulation techniques for modelling and optimizing integrated airport operations.
ProjectToday’s constant air traffic growth has led to congestion problems at airports across the globe. In this project, the Amsterdam University of Applied Sciences (AUAS) has looked at ways to optimize integrated airport operations to help deal with this problem. Unlike other studies in this field of research, it takes a holistic view, and contributes by a) supporting the decisions air traffic controllers make in terms of aircraft sequencing, and b) by helping to mitigate airport congestion on the ground.
Airport congestion with real-world implications
Airport congestion isn’t just an annoyance – it has real-world implications. The airspace surrounding the airport – called the terminal manoeuvring area (TMA) – is particularly congested as it tries to accommodate all traffic to and from the airport. But congestion also occurs on the ground, where air traffic inefficiencies lead to delays which are then passed on to other airports down the line. In terms of safety, congestion also increases air traffic controllers’ workload, forcing them to handle increasingly larger amounts of traffic.
Combining optimization and simulation models
This project combined optimization and simulation techniques by developing two methods aiming to improve solution robustness and feasibility. Researchers used the concept of an optimization model to identify an objective function to deal with the number of airspace conflicts and amount of capacity overload on the ground. They also used a simulation model and included random variables to represent sources of uncertainty.
Both methods were effective in improving performance. The first optimization/simulation model reduced the total number of conflicts by up to 24%, while the second optimization/simulation model reduced the total number of conflicts by up to 11%. These methods could potentially be applied to similar problems by adapting different optimization methods.
Solutions with real-world impact
Two major stakeholder groups will benefit from this study: passengers will experience more travel comfort due to smoother operations and fewer delays, while airports, airlines and air traffic controllers will achieve better use of their limited resources.
'Traditional analytical techniques can fall short when it comes to finding solutions that optimize resources at hand', says PhD student Paolo Scala. 'Our computer modelling approach is future-friendly, and helps us create robust solutions that can be applied immediately in the real world. Our use of simulations allows everybody – from aviation industry operational managers to high level decision makers – to understand inefficiencies and create real change. The result is an improvement in resource management that can drastically reduce operational costs.'
Impact on education
Modelling and Simulation (M&S) is one of the pillars within the AUAS's Aviation bachelor program, present in both the second and third years. Thesis projects related to airport capacity and the use of (M&S) techniques are also used to motivate students.
Partners
This project was conducted by PhD student Paolo Scala. It was supervised by Dr. Miguel Mujica Mota (AUAS) and Prof. Daniel Delahaye (ENAC). The AUAS supported the project by providing Paolo Scala with a four-year scholarship. The AUAS also cooperated closely with the University of Toulouse (the institution granting the PhD) and Ecole Nationale de L’Aviation Civile (ENAC) – the globally recognized institute where the research was conducted.
PhD manuscript:
- http://thesesups.ups-tlse.fr/4448/
- https://hal-enac-archives-ouvertes-fr.ezproxy.u-pec.fr/tel-02329839
Journal papers:
- Tackling Uncertainty for the Development of Efficient Decision Support System in Air Traffic Management. IEEE Transactions on Intelligent Transportation Systems. https://ieeexplore.ieee.org/document/8755486.
- Integrated optimization of terminal maneuvering area and airport at the macroscopic level. https://www.sciencedirect.com/science/article/pii/S0968090X18302754
Book chapters:
- Improving Airport Performance Through a Model‐Based Analysis and Optimization Approach. New Applications in Logistics, Industrial and Aeronautical Practice. https://link.springer.com/chapter/10.1007/978-3-319-55810-3_4
- Applied Simulation and Optimization 2, New Applications in Logistics, Industrial and Aeronautical Practice. https://link.springer.com/chapter/10.1007/978-3-319-55810-3_4
Conference papers:
- A Generic Framework for Modeling Airport Operations At a Macroscopic Level. https://ieeexplore.ieee.org/document/9004865
- SIM-OPT IN THE LOOP: ALGORITHMIC FRAMEWORK FOR SOLVING AIRPORT CAPACITY PROBLEMS. https://ieeexplore.ieee.org/document/8632531
- Integrated Optimization of Arrival, Departure, and Surface Operations. https://hal-enac.archives-ouvertes.fr/hal-01823188/document
- A Down To Earth Solution: Applying a robust simulation-optimization approach to resolve aviation problems. https://ieeexplore.ieee.org/document/8247989
- A study of Tradeoffs in Airport Coordinated Surface Operations. https://hal-enac.archives-ouvertes.fr/hal-01637959/document
- NO MORE CONFLICTS: THE DEVELOPMENT OF A GENERIC AIRPORT MODEL IN A SEQUENCE OPTIMIZATION FRAMEWORK. https://pure.hva.nl/ws/files/5733521/EMSS_FULL_PAPER_SCALA_MUJICA_DELAHAYE.pdf
- Implementation of an Optimization and Simulation-Based Approach for Detecting and Resolving Conflicts at Airports. http://www.ep.liu.se/ecp/142/037/ecp17142037.pdf
- Methodology for Assessing and Optimizing Operation Performance in Airport Systems. https://hal.archives-ouvertes.fr/hal-01280639
Airport and Airspace Capacity research line
This project was conducted within the Airport and Airspace Capacity research line. Airport and Airspace Capacity research uses computer modelling, mathematical programming, algorithmic development and even a combination of all three to understand and improve systems at an airport or across an entire network.
