Taxi-speed prediction by spatio-temporal graph-based trajectory representation and its applications
Airport surface movement systems require aircraft taxing speed as a key input to perform ground movement optimization and path planning processes. With the increasing availability of surface movement data from systems such as A-SMGCS, a data-driven framework using a spatio-temporal graph-based traje...
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sg-ntu-dr.10356-1468532021-03-13T20:10:23Z Taxi-speed prediction by spatio-temporal graph-based trajectory representation and its applications Tran, Thanh-Nam Pham, Duc-Thinh Alam, Sameer Duong, Vu School of Mechanical and Aerospace Engineering International Conference for Research in Air Transportation (ICRAT) 2020 Air Traffic Management Research Institute Engineering::Aeronautical engineering::Air navigation Airport Surface Movement Conflict Detection Airport surface movement systems require aircraft taxing speed as a key input to perform ground movement optimization and path planning processes. With the increasing availability of surface movement data from systems such as A-SMGCS, a data-driven framework using a spatio-temporal graph-based trajectory representation is proposed in this paper to predict aircraft taxing speed. The proposed framework includes a data preparation module for converting track points data to graph-based representation and a developing predictive model module for learning taxi-speed model. The Random Forest algorithm is selected as our predictive model. The model predicts the aircraft taxi-speed with an error of 1.08 m/s for taxi-out procedure and 0.97 m/s for taxi-in procedure, when compared with the actual taxi-speed from A-SMGCS data, respectively. Further, three applications of our approach are discussed which are taxi-speed profile, unimpeded taxi time and potential conflict detection. The results of our methods outperform all baseline methods. In detail, for generating taxi-speed profile, our method obtains the error 1.38 m/s while for computing unimpeded taxi time, our method outperforms the baseline model with the mean absolute percentage error is 11.03% for the taxi-in and 16.8% for taxi-out procedure, respectively. Civil Aviation Authority of Singapore (CAAS) Accepted version This research / project* is supported by the Civil Aviation Authority of Singapore and Nanyang Technological University, Singapore under their collaboration in the Air Traffic Management Research Institute. Any opinions, findings and conclusions or recommendations expressed in this material are those of the author(s) and do not reflect the views of the Civil Aviation Authority of Singapore. 2021-03-12T02:56:11Z 2021-03-12T02:56:11Z 2020 Conference Paper Tran, T., Pham, D., Alam, S. & Duong, V. (2020). Taxi-speed prediction by spatio-temporal graph-based trajectory representation and its applications. International Conference for Research in Air Transportation (ICRAT) 2020. https://hdl.handle.net/10356/146853 en © 2020 ICRAT. All rights reserved. This paper was published in International Conference for Research in Air Transportation (ICRAT) and is made available with permission of ICRAT. application/pdf |
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Engineering::Aeronautical engineering::Air navigation Airport Surface Movement Conflict Detection Tran, Thanh-Nam Pham, Duc-Thinh Alam, Sameer Duong, Vu Taxi-speed prediction by spatio-temporal graph-based trajectory representation and its applications |
| description |
Airport surface movement systems require aircraft taxing speed as a key input to perform ground movement optimization and path planning processes. With the increasing availability of surface movement data from systems such as A-SMGCS, a data-driven framework using a spatio-temporal graph-based trajectory representation is proposed in this paper to predict aircraft taxing speed. The proposed framework includes a data preparation module for converting track points data to graph-based representation and a developing predictive model module for learning taxi-speed model. The Random Forest algorithm is selected as our predictive model. The model predicts the aircraft taxi-speed with an error of 1.08 m/s for taxi-out procedure and 0.97 m/s for taxi-in procedure, when compared with the actual taxi-speed from A-SMGCS data, respectively. Further, three applications of our approach are discussed which are taxi-speed profile, unimpeded taxi time and potential conflict detection. The results of our methods outperform all baseline methods. In detail, for generating taxi-speed profile, our method obtains the error 1.38 m/s while for computing unimpeded taxi time, our method outperforms the baseline model with the mean absolute percentage error is 11.03% for the taxi-in and 16.8% for taxi-out procedure, respectively. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Tran, Thanh-Nam Pham, Duc-Thinh Alam, Sameer Duong, Vu |
| format |
Conference or Workshop Item |
| author |
Tran, Thanh-Nam Pham, Duc-Thinh Alam, Sameer Duong, Vu |
| author_sort |
Tran, Thanh-Nam |
| title |
Taxi-speed prediction by spatio-temporal graph-based trajectory representation and its applications |
| title_short |
Taxi-speed prediction by spatio-temporal graph-based trajectory representation and its applications |
| title_full |
Taxi-speed prediction by spatio-temporal graph-based trajectory representation and its applications |
| title_fullStr |
Taxi-speed prediction by spatio-temporal graph-based trajectory representation and its applications |
| title_full_unstemmed |
Taxi-speed prediction by spatio-temporal graph-based trajectory representation and its applications |
| title_sort |
taxi-speed prediction by spatio-temporal graph-based trajectory representation and its applications |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146853 |
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1694270319587491840 |