Reinforcement learning for collaborative multi-airport slot re-allocation under reduced capacity scenarios
Airport Collaborative Decision Making (A-CDM) is currently implemented to foster collaboration for efficient airport slot allocation. In the ASEAN region, where a central decision-making authority is not available, each airport reserves its autonomy in managing its own airport resources, which leads...
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sg-ntu-dr.10356-1823242025-02-08T16:48:39Z Reinforcement learning for collaborative multi-airport slot re-allocation under reduced capacity scenarios Nguyen-Duy, Anh Pham, Duc-Thinh School of Mechanical and Aerospace Engineering 2024 International Workshop on ATM/CNS (IWAC) Air Traffic Management Research Institute Computer and Information Science Other Reinforcement learning Airport collaborative decision making Airport slot re-allocation Airport Collaborative Decision Making (A-CDM) is currently implemented to foster collaboration for efficient airport slot allocation. In the ASEAN region, where a central decision-making authority is not available, each airport reserves its autonomy in managing its own airport resources, which leads to different decision-making policies. An effective collaborative airport slot allocation approach needs to demonstrate its ability to collaborate with different slot allocation policies. Reinforcement Learning, a learning-based approach, can make use of interactions between airports to capture the underlying policies of other airports. In this paper, we consider a multi-airport system with different slot allocation policies, consisting of a Reinforcement Learning airport agent interacting with fixed-policy airport agents. We want to validate if the Reinforcement Learning agent can utilize interactions between airports to learn to reallocate slots efficiently under reduced capacity scenarios. We perform validation on the Hong Kong-Singapore-Bangkok hub, with the 2018 OAG data. The performance of the Reinforcement Learning agent is compared with the Nearest Heuristic, which assigns delays based on the nearest available slots. Results show that the Reinforcement Learning agent performs significantly better than the Nearest Heuristic under a heavy-reduced capacity scenario, with a total delay of 84 and 107, respectively. For a medium-reduced capacity scenario, the Reinforcement Learning agent closely resembles the performance of the Nearest Heuristic, with a total delay of 45 and 41, respectively. Published version 2025-02-05T06:11:19Z 2025-02-05T06:11:19Z 2024 Conference Paper Nguyen-Duy, A. & Pham, D. (2024). Reinforcement learning for collaborative multi-airport slot re-allocation under reduced capacity scenarios. 2024 International Workshop on ATM/CNS (IWAC). https://iwac2024.org/docs/IWAC2024_ProgramBooklet.pdf https://hdl.handle.net/10356/182324 en © 2024 Electronic Navigation Research Institute (ENRI). All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. application/pdf |
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Computer and Information Science Other Reinforcement learning Airport collaborative decision making Airport slot re-allocation |
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Computer and Information Science Other Reinforcement learning Airport collaborative decision making Airport slot re-allocation Nguyen-Duy, Anh Pham, Duc-Thinh Reinforcement learning for collaborative multi-airport slot re-allocation under reduced capacity scenarios |
| description |
Airport Collaborative Decision Making (A-CDM) is currently implemented to foster collaboration for efficient airport slot allocation. In the ASEAN region, where a central decision-making authority is not available, each airport reserves its autonomy in managing its own airport resources, which leads to different decision-making policies. An effective collaborative airport slot allocation approach needs to demonstrate its ability to collaborate with different slot allocation policies. Reinforcement Learning, a learning-based approach, can make use of interactions between airports to capture the underlying policies of other airports. In this paper, we consider a multi-airport system with different slot allocation policies, consisting of a Reinforcement Learning airport agent interacting with fixed-policy airport agents. We want to validate if the Reinforcement Learning agent can utilize interactions between airports to learn to reallocate slots efficiently under reduced capacity scenarios. We perform validation on the Hong Kong-Singapore-Bangkok hub, with the 2018 OAG data. The performance of the Reinforcement Learning agent is compared with the Nearest Heuristic, which assigns delays based on the nearest available slots. Results show that the Reinforcement Learning agent performs significantly better than the Nearest Heuristic under a heavy-reduced capacity scenario, with a total delay of 84 and 107, respectively. For a medium-reduced capacity scenario, the Reinforcement Learning agent closely resembles the performance of the Nearest Heuristic, with a total delay of 45 and 41, respectively. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Nguyen-Duy, Anh Pham, Duc-Thinh |
| format |
Conference or Workshop Item |
| author |
Nguyen-Duy, Anh Pham, Duc-Thinh |
| author_sort |
Nguyen-Duy, Anh |
| title |
Reinforcement learning for collaborative multi-airport slot re-allocation under reduced capacity scenarios |
| title_short |
Reinforcement learning for collaborative multi-airport slot re-allocation under reduced capacity scenarios |
| title_full |
Reinforcement learning for collaborative multi-airport slot re-allocation under reduced capacity scenarios |
| title_fullStr |
Reinforcement learning for collaborative multi-airport slot re-allocation under reduced capacity scenarios |
| title_full_unstemmed |
Reinforcement learning for collaborative multi-airport slot re-allocation under reduced capacity scenarios |
| title_sort |
reinforcement learning for collaborative multi-airport slot re-allocation under reduced capacity scenarios |
| publishDate |
2025 |
| url |
https://iwac2024.org/docs/IWAC2024_ProgramBooklet.pdf https://hdl.handle.net/10356/182324 |
| _version_ |
1823807352714821632 |