Trajectory prediction method for incoming guided projectiles based on the fusion of Temporal Convolutional Network and dual attention mechanisms

To improve the response speed and missile interception accuracy of combat systems, this paper proposes a trajectory prediction method for incoming projectiles based on the TCN-ECA-BiGRU-Attention model. First, trajectory prediction datasets are constructed under various combat scenarios. Compared wi...

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Published in:Measurement : journal of the International Measurement Confederation Vol. 257; p. 118906
Main Authors: Gao, Zhanpeng, Yi, Wenjun
Format: Journal Article
Language:English
Published: Elsevier Ltd 15.01.2026
Subjects:
Anti-missile interception
Attention mechanism
Bidirectional gated recurrent unit
Temporal convolutional network
Trajectory prediction
Attention mechanism
Trajectory prediction
Temporal convolutional network
Bidirectional gated recurrent unit
Anti-missile interception
ISSN:0263-2241
Online Access:Get full text
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Abstract To improve the response speed and missile interception accuracy of combat systems, this paper proposes a trajectory prediction method for incoming projectiles based on the TCN-ECA-BiGRU-Attention model. First, trajectory prediction datasets are constructed under various combat scenarios. Compared with BiGRU, BiLSTM, CNN-BiGRU, CNN-BiGRU-Attention, and TCN-BiGRU-Attention models, simulation results show that the TCN-ECA-BiGRU-Attention model achieves the highest prediction accuracy across different operational environments. For guided artillery targeting stationary points, the cumulative error over 10 s in the three axes is only about 60 meters. For guided artillery targeting moving points, the overall prediction error is approximately 200 meters, which falls within the lethal range of interception missiles. Moreover, the model’s average trajectory point error is smaller than its endpoint error, demonstrating high stability and accuracy. Compared with other models, the TCN-ECA-BiGRU-Attention model exhibits lower endpoint and average trajectory errors, highlighting its superior precision and reliability. Therefore, the proposed trajectory prediction method not only effectively captures the dynamic behavior of targets but also provides reliable interception data for guidance systems, thereby enhancing operational efficiency in modern warfare. •Designs guidance law to simulate artillery trajectory data for TEBGA training and validation.•TEBGA hybrid with recursive prediction enables accurate trajectory forecasting.•Validates TEBGA’s superior precision, stability and generalization against traditional models.
AbstractList To improve the response speed and missile interception accuracy of combat systems, this paper proposes a trajectory prediction method for incoming projectiles based on the TCN-ECA-BiGRU-Attention model. First, trajectory prediction datasets are constructed under various combat scenarios. Compared with BiGRU, BiLSTM, CNN-BiGRU, CNN-BiGRU-Attention, and TCN-BiGRU-Attention models, simulation results show that the TCN-ECA-BiGRU-Attention model achieves the highest prediction accuracy across different operational environments. For guided artillery targeting stationary points, the cumulative error over 10 s in the three axes is only about 60 meters. For guided artillery targeting moving points, the overall prediction error is approximately 200 meters, which falls within the lethal range of interception missiles. Moreover, the model’s average trajectory point error is smaller than its endpoint error, demonstrating high stability and accuracy. Compared with other models, the TCN-ECA-BiGRU-Attention model exhibits lower endpoint and average trajectory errors, highlighting its superior precision and reliability. Therefore, the proposed trajectory prediction method not only effectively captures the dynamic behavior of targets but also provides reliable interception data for guidance systems, thereby enhancing operational efficiency in modern warfare. •Designs guidance law to simulate artillery trajectory data for TEBGA training and validation.•TEBGA hybrid with recursive prediction enables accurate trajectory forecasting.•Validates TEBGA’s superior precision, stability and generalization against traditional models.
ArticleNumber 118906
Author Gao, Zhanpeng
Yi, Wenjun
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  email: wenjunyi@njust.edu.cn
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Keywords Attention mechanism
Trajectory prediction
Temporal convolutional network
Bidirectional gated recurrent unit
Anti-missile interception
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Snippet To improve the response speed and missile interception accuracy of combat systems, this paper proposes a trajectory prediction method for incoming projectiles...
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StartPage 118906
SubjectTerms Anti-missile interception
Attention mechanism
Bidirectional gated recurrent unit
Temporal convolutional network
Trajectory prediction
Title Trajectory prediction method for incoming guided projectiles based on the fusion of Temporal Convolutional Network and dual attention mechanisms
URI https://dx.doi.org/10.1016/j.measurement.2025.118906
Volume 257
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