| People | Locations | Statistics |
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| Mouftah, Hussein T. |
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| Dugay, Fabrice |
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| Rettenmeier, Max |
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| Tomasch, Ernst | Graz |
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| Cornaggia, Greta |
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| Palacios-Navarro, Guillermo |
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| Uspenskyi, Borys V. |
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| Khan, Baseem |
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| Fediai, Natalia |
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| Derakhshan, Shadi |
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| Somers, Bart | Eindhoven |
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| Anvari, B. |
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| Kraushaar, Sabine | Vienna |
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| Kehlbacher, Ariane |
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| Das, Raj |
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| Werbińska-Wojciechowska, Sylwia |
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| Brillinger, Markus |
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| Eskandari, Aref |
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| Gulliver, J. |
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| Loft, Shayne |
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| Kud, Bartosz |
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| Matijošius, Jonas | Vilnius |
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| Piontek, Dennis |
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| Kene, Raymond O. |
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| Barbosa, Juliana |
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Badea, Andrei
Delft University of Technology
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (9/9 displayed)
- 2025Very-low-level U-space Conflict Detection and Resolution: Focused Developments, Analysis, and Future Prospects
- 2023Unifying Tactical Conflict Prevention, Detection, and Resolution Methods in Non-Orthogonal Constrained Urban Airspace
- 2023Dynamic Capacity Management for Air Traffic Operations in High Density Constrained Urban Airspacecitations
- 2022Lateral and Vertical Air Traffic Control Under Uncertainty Using Reinforcement Learning
- 2022Conflict Prevention, Detection, and Resolution in Constrained Very Low-Level Urban Airspace
- 2022Air Traffic Control Reinforcement Learning Environment
- 2022A Tactical Conflict Resolution Method for UAVs in Geovectored Airspace
- 2021Limitations of Conflict Prevention and Resolution in Constrained Very Low-Level Urban Airspace
- 2021Gamification: Improving Supervisory Control Performance in Highly Automated Air Traffic Control
Places of action
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thesis
Gamification: Improving Supervisory Control Performance in Highly Automated Air Traffic Control
Abstract
The use of automated conflict detection and resolution tools for air traffic control seems inevitable. Air traffic controllers will then take the role of automation supervisors, a role which is generally unsuitable for humans. Gamification, the use of game elements in non-gaming contexts, shows promising results in mitigating the effects of boredom. This project presents and experimentally tests a proposed implementation of gamification within an air traffic control work environment. Fictional aircraft are superimposed among automatically controlled real traffic, thus creating fictional conflicts that need resolving. System supervisors are given the task of supervising the behaviour of a fully automated conflict detection and resolution system while routing fictional aircraft safely and efficiently through the sector, avoiding conflicts with other aircraft (both real and fictional). Experiment results show that the presence of fictional aircraft increased reported concentration levels among participants, as well as improved supervisory control performance. ; Aerospace Engineering
Topics
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