PeerJ Computer Science (Jun 2024)

Research on intelligent forecasts of flight actions based on the implemented bi-LSTM

  • Xin Hua,
  • Xuejie Yang

DOI
https://doi.org/10.7717/peerj-cs.2153
Journal volume & issue
Vol. 10
p. e2153

Abstract

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Rapid identification of flight actions by utilizing flight data is more realistic so the quality of flight training can be objectively assessed. The bidirectional long short-term memory (bi-LSTM) algorithm is implemented to forecast the flight actions of aircraft. The dataset containing the flight actions is structured by collecting tagged flight data when real flight training is exercised. However, the dataset needs to be preprocessed and annotated with expert rules. One of the deep learning (DL) methods, called the bi-LSTM algorithm, is implemented to train and test, and the pivotal parameters of the algorithm are optimized. Finally, the constructed model is applied to forecast the flight actions of aircraft. The training’s accuracy and loss rates are computed. The duration is kept between 1 through 3 h per session. Thus, the development of training the model is continued until an accuracy rate above 85% is achieved. The word-run inference time is kept under 2 s. Finally, the proposed algorithm’s specific characteristics, which are short training time and high recognition accuracy, are achieved when complex rules and large sample sizes exist.

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