Abstract 4D trajectory prediction is the core element of the future air transportation system. It aims to improve the operational ability and the predictability of air traffic. In this paper, a novel automated data-driven framework to deal with the prediction of Estimated Time of Arrival (ETA) on the runway at the entry point of Terminal Manoeuvring Area (TMA) is introduced. The proposed framework mainly consists of data preprocessing and machine learning models. Firstly, the dataset is divided, analyzed, cleaned, and estimated. Then, the flights are clustered into partitions according to different runway-in-use (QFU). Several candidate machine learning models are trained and selected on the corresponding dataset of each QFU. Feature engineering is conducted to transform raw data into features. After that, the experiments are performed on real ADS-B data in Beijing TMA with nested cross validation. By comparing the prediction performance on the preprocessed and un-preprocessed datasets, the results demonstrate that the proposed data preprocessing is able to improve the data quality. It is also robust to outliers, missing data, and noise. Finally, an ensemble learning strategy named stacking is introduced. Compared to other individual models, the stacked model has a more complex structure and performs best in ETA prediction. This fact reveals that the framework proposed in this study could make accurate and reliable ETA predictions.

    Highlights A refined preprocessing method is applied to handle complicated traffic patterns. It is capable of processing 4D trajectory data of all landing flights in TMA, even with outliers, missing points, and noise. This approach could be easily extended to other TMAs. An automated ETA prediction model is developed to handle routine traffic at the entry of TMA. Machine learning strategies are utilized to deal with the highly-dense arrival trajectories in TMA.


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    Title :

    Automated data-driven prediction on aircraft Estimated Time of Arrival


    Contributors:


    Publication date :

    2020-05-18




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English




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