Critical links detection in spatial-temporal airway networks using complex network theories
In an airway network, some critical links exist that are vital for the structural integrity and performance of the network. The detection of such links may assist with improving the imbalance between the limited airspace capacity and the ever-increasing traffic demand, which elicit flight delays, si...
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sg-ntu-dr.10356-1563412022-04-16T20:10:22Z Critical links detection in spatial-temporal airway networks using complex network theories Ma, Chunyao Alam, Sameer Cai, Qing Delahaye, Daniel School of Mechanical and Aerospace Engineering Air Traffic Management Research Institute Engineering::Mechanical engineering Air Transportation Airway Network In an airway network, some critical links exist that are vital for the structural integrity and performance of the network. The detection of such links may assist with improving the imbalance between the limited airspace capacity and the ever-increasing traffic demand, which elicit flight delays, significant economic losses, etc. However, it is challenging to identify such links as they evolve (both in space and time) with changing traffic flow dynamics. This paper proposes a complex network approach for spatial-temporal critical links detection in a given airway network. First, flight track data is employed to characterize the airway network as weighted spatial-temporal networks. Then edge centrality and network percolation metrics are adopted to detect the critical links in each snapshot of the spatial-temporal networks. Afterward, the critical links detected by the two metrics are spatially overlapped to determine the final critical links over time. To examine the operational validity of the proposed method, we carry out a case study on the Southeast Asia airway network derived from one-month flight track data. Results demonstrate that the spatial distribution of the critical links varies over different traffic scenarios, and most of the identified critical links are found in the transition sectors with complex traffic situations. Four links, which are parts and at crosses of major trunk airways connecting to major navigation aids (VOR/DME) in the studied network, appear highly in all examined traffic scenarios. The unavailability of such links may lead to traffic flow disruptions. Observations by subject matter experts from air-traffic data visualizations demonstrate that the complex network-based methods can dynamically identify airway links that are operationally critical under time-evolving air-traffic scenarios. With good traffic flow prediction tools in the future, this method can be adopted to predict critical links in airway networks to better assist controllers in real-time air traffic management. Civil Aviation Authority of Singapore (CAAS) National Research Foundation (NRF) Published version This research / project* is supported by the National Research Foundation, Singapore, and the Civil Aviation Authority of Singapore, under the Aviation Transformation Programme. Any opinions, findings and conclusions or recommendations expressed in this material are those of the author(s) and do not reflect the views of National Research Foundation, Singapore and the Civil Aviation Authority of Singapore. 2022-04-12T00:46:03Z 2022-04-12T00:46:03Z 2022 Journal Article Ma, C., Alam, S., Cai, Q. & Delahaye, D. (2022). Critical links detection in spatial-temporal airway networks using complex network theories. IEEE Access, 10, 27925-27944. https://dx.doi.org/10.1109/ACCESS.2022.3152163 2169-3536 https://hdl.handle.net/10356/156341 10.1109/ACCESS.2022.3152163 10 27925 27944 en IEEE Access © 2022 The Author(s). This work is licensed under a Creative Commons Attribution 4.0 License. For more information, see https://creativecommons.org/licenses/by/4.0/. application/pdf |
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Engineering::Mechanical engineering Air Transportation Airway Network Ma, Chunyao Alam, Sameer Cai, Qing Delahaye, Daniel Critical links detection in spatial-temporal airway networks using complex network theories |
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In an airway network, some critical links exist that are vital for the structural integrity and performance of the network. The detection of such links may assist with improving the imbalance between the limited airspace capacity and the ever-increasing traffic demand, which elicit flight delays, significant economic losses, etc. However, it is challenging to identify such links as they evolve (both in space and time) with changing traffic flow dynamics. This paper proposes a complex network approach for spatial-temporal critical links detection in a given airway network. First, flight track data is employed to characterize the airway network as weighted spatial-temporal networks. Then edge centrality and network percolation metrics are adopted to detect the critical links in each snapshot of the spatial-temporal networks. Afterward, the critical links detected by the two metrics are spatially overlapped to determine the final critical links over time. To examine the operational validity of the proposed method, we carry out a case study on the Southeast Asia airway network derived from one-month flight track data. Results demonstrate that the spatial distribution of the critical links varies over different traffic scenarios, and most of the identified critical links are found in the transition sectors with complex traffic situations. Four links, which are parts and at crosses of major trunk airways connecting to major navigation aids (VOR/DME) in the studied network, appear highly in all examined traffic scenarios. The unavailability of such links may lead to traffic flow disruptions. Observations by subject matter experts from air-traffic data visualizations demonstrate that the complex network-based methods can dynamically identify airway links that are operationally critical under time-evolving air-traffic scenarios. With good traffic flow prediction tools in the future, this method can be adopted to predict critical links in airway networks to better assist controllers in real-time air traffic management. |
author2 |
School of Mechanical and Aerospace Engineering |
author_facet |
School of Mechanical and Aerospace Engineering Ma, Chunyao Alam, Sameer Cai, Qing Delahaye, Daniel |
format |
Article |
author |
Ma, Chunyao Alam, Sameer Cai, Qing Delahaye, Daniel |
author_sort |
Ma, Chunyao |
title |
Critical links detection in spatial-temporal airway networks using complex network theories |
title_short |
Critical links detection in spatial-temporal airway networks using complex network theories |
title_full |
Critical links detection in spatial-temporal airway networks using complex network theories |
title_fullStr |
Critical links detection in spatial-temporal airway networks using complex network theories |
title_full_unstemmed |
Critical links detection in spatial-temporal airway networks using complex network theories |
title_sort |
critical links detection in spatial-temporal airway networks using complex network theories |
publishDate |
2022 |
url |
https://hdl.handle.net/10356/156341 |
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1731235741873209344 |