Trajectory-based flight scheduling for AirMetro in urban environments by conflict resolution
The demand on the public transportation in many cities has been increasing with the diversity of commuters’ activities that require the regular travelling across the urban and suburb areas. However, the public transport systems still suffer from the traffic congestion and detour, which will then red...
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sg-ntu-dr.10356-1597262022-06-30T05:40:25Z Trajectory-based flight scheduling for AirMetro in urban environments by conflict resolution Wu, Yu Low, Kin Huat Hu, Xinting School of Mechanical and Aerospace Engineering Air Traffic Management Research Institute Engineering::Civil engineering Flight Scheduling Urban Environments The demand on the public transportation in many cities has been increasing with the diversity of commuters’ activities that require the regular travelling across the urban and suburb areas. However, the public transport systems still suffer from the traffic congestion and detour, which will then reduce the efficiency. Accordingly, extensive efforts have been made for decades to optimize the operations of metro ground traffic with trains, subways, and buses (2D public transportation). On the other hand, unmanned aerial vehicles (UAVs) have been widely applied in the event-triggered tasks, such as delivery, rescue and surveillance in urban environments, and they have a great potential to relieve the pressure in 2D ground public transportation. Inspired from metro systems, AirMetro is a new concept proposed for future 3D public air transportation service, which carries the passengers commuting from a point to the destination, routinely and periodically. In this paper, the flight scheduling problem for AirMetro is studied based on the flight route of UAVs. The low-altitude airspace in urban environments is divided into several layers by altitude, and AirMetro is conducted in the allocated airspace as the public lanes. First, a pipeline-based route planning algorithm is proposed for the gridded urban environments to further reduce the length of a flight route generated by A* algorithm. The UAV is not required to pass through the centre of a cube in the pipeline-based algorithm when compared with the A* algorithm. This can then potentially result in a shorter flight route. As for resolving the conflict among UAVs, a minimum influence-based approach is developed to delay the flight and reduce the influence of adjustment on the follow-up flights of the UAV. By further introducing a modified simulated annealing (MSA) algorithm, the delay of flight can be further reduced by optimizing the UAV sequence conducting the conflict resolution. Results of the case studies demonstrate that the trajectory-based flight scheduling method can improve the flight efficiency by ensuring the flight safety of UAVs and reducing the average delay of UAVs as well in AirMetro. Ministry of Education (MOE) Nanyang Technological University This research work is supported by the Chongqing Research Program of Basic Research and Frontier Technology (grant number of cstc2020jcyj-msxmX0602) and the Fundamental Research Funds for the Central Universities (grant number of 2020 CDJ-LHZZ-066). Thanks are also due to China Scholarship Council (project reference number 201906055030) for the financial support of the research attachment of the first author to the ATMRI in the NTU, Singapore. This collaborative research, findings presented, and interactions among teams are also relevant to the Ministry of Education (MOE, Singapore) Tier-1 project research grant (Project ID: 2018-T1-002-124) and the UAS Program on “Urban Aerial Transport Traffic Management and Systems” in the ATMRI, NTU, Singapore. The current work also provides the basis and idea for the recently approved National Natural Science Foundation of China (grant number of 52102453). 2022-06-30T05:40:25Z 2022-06-30T05:40:25Z 2021 Journal Article Wu, Y., Low, K. H. & Hu, X. (2021). Trajectory-based flight scheduling for AirMetro in urban environments by conflict resolution. Transportation Research Part C: Emerging Technologies, 131, 103355-. https://dx.doi.org/10.1016/j.trc.2021.103355 0968-090X https://hdl.handle.net/10356/159726 10.1016/j.trc.2021.103355 2-s2.0-85114467673 131 103355 en 2018-T1-002-124 Transportation Research Part C: Emerging Technologies © 2021 Elsevier Ltd. All rights reserved |
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Engineering::Civil engineering Flight Scheduling Urban Environments Wu, Yu Low, Kin Huat Hu, Xinting Trajectory-based flight scheduling for AirMetro in urban environments by conflict resolution |
| description |
The demand on the public transportation in many cities has been increasing with the diversity of commuters’ activities that require the regular travelling across the urban and suburb areas. However, the public transport systems still suffer from the traffic congestion and detour, which will then reduce the efficiency. Accordingly, extensive efforts have been made for decades to optimize the operations of metro ground traffic with trains, subways, and buses (2D public transportation). On the other hand, unmanned aerial vehicles (UAVs) have been widely applied in the event-triggered tasks, such as delivery, rescue and surveillance in urban environments, and they have a great potential to relieve the pressure in 2D ground public transportation. Inspired from metro systems, AirMetro is a new concept proposed for future 3D public air transportation service, which carries the passengers commuting from a point to the destination, routinely and periodically. In this paper, the flight scheduling problem for AirMetro is studied based on the flight route of UAVs. The low-altitude airspace in urban environments is divided into several layers by altitude, and AirMetro is conducted in the allocated airspace as the public lanes. First, a pipeline-based route planning algorithm is proposed for the gridded urban environments to further reduce the length of a flight route generated by A* algorithm. The UAV is not required to pass through the centre of a cube in the pipeline-based algorithm when compared with the A* algorithm. This can then potentially result in a shorter flight route. As for resolving the conflict among UAVs, a minimum influence-based approach is developed to delay the flight and reduce the influence of adjustment on the follow-up flights of the UAV. By further introducing a modified simulated annealing (MSA) algorithm, the delay of flight can be further reduced by optimizing the UAV sequence conducting the conflict resolution. Results of the case studies demonstrate that the trajectory-based flight scheduling method can improve the flight efficiency by ensuring the flight safety of UAVs and reducing the average delay of UAVs as well in AirMetro. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Wu, Yu Low, Kin Huat Hu, Xinting |
| format |
Article |
| author |
Wu, Yu Low, Kin Huat Hu, Xinting |
| author_sort |
Wu, Yu |
| title |
Trajectory-based flight scheduling for AirMetro in urban environments by conflict resolution |
| title_short |
Trajectory-based flight scheduling for AirMetro in urban environments by conflict resolution |
| title_full |
Trajectory-based flight scheduling for AirMetro in urban environments by conflict resolution |
| title_fullStr |
Trajectory-based flight scheduling for AirMetro in urban environments by conflict resolution |
| title_full_unstemmed |
Trajectory-based flight scheduling for AirMetro in urban environments by conflict resolution |
| title_sort |
trajectory-based flight scheduling for airmetro in urban environments by conflict resolution |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/159726 |
| _version_ |
1738844925891444736 |