A data-driven learning guidance strategy for target interception with terminal time constraint

Zichao Liu; Ziyi Wu; Toshiharu Tabuchi; Nguyen Hung; Cristino DSouza; Chang Hun Lee; Shaoming He

doi:10.1177/09544100251338758

A data-driven learning guidance strategy for target interception with terminal time constraint

Zichao Liu, Ziyi Wu, Toshiharu Tabuchi, Nguyen Hung, Cristino DSouza, Chang Hun Lee, Shaoming He^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

This paper proposes a data-driven learning guidance strategy to tackle the target interception problem with terminal time constraints. The developed guidance algorithm employs the prediction-correction concept to derive commands effectively. We first develop a two-branch neural network to predict time-to-go, assuming there is no constraints on target’s maneuvers. Using the predicted time-to-go, we then propose a biased proportional navigation guidance (PNG), where the the biased command is computed by a deep reinforcement learning (DRL) network, to correct the impact time. Results from intensive Monte-Carlo simulations validates the efficacy of the method.

Original language	English
Journal	Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering
DOIs	https://doi.org/10.1177/09544100251338758
Publication status	Accepted/In press - 2025
Externally published	Yes

Keywords

computational guidance
deep reinforcement learning
impact time guidance
maneuvering target

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10.1177/09544100251338758

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title = "A data-driven learning guidance strategy for target interception with terminal time constraint",

abstract = "This paper proposes a data-driven learning guidance strategy to tackle the target interception problem with terminal time constraints. The developed guidance algorithm employs the prediction-correction concept to derive commands effectively. We first develop a two-branch neural network to predict time-to-go, assuming there is no constraints on target{\textquoteright}s maneuvers. Using the predicted time-to-go, we then propose a biased proportional navigation guidance (PNG), where the the biased command is computed by a deep reinforcement learning (DRL) network, to correct the impact time. Results from intensive Monte-Carlo simulations validates the efficacy of the method.",

keywords = "computational guidance, deep reinforcement learning, impact time guidance, maneuvering target",

author = "Zichao Liu and Ziyi Wu and Toshiharu Tabuchi and Nguyen Hung and Cristino DSouza and Lee, {Chang Hun} and Shaoming He",

note = "Publisher Copyright: {\textcopyright} IMechE 2025.",

year = "2025",

doi = "10.1177/09544100251338758",

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AU - Liu, Zichao

AU - Wu, Ziyi

AU - Tabuchi, Toshiharu

AU - Hung, Nguyen

AU - DSouza, Cristino

AU - Lee, Chang Hun

AU - He, Shaoming

PY - 2025

Y1 - 2025

N2 - This paper proposes a data-driven learning guidance strategy to tackle the target interception problem with terminal time constraints. The developed guidance algorithm employs the prediction-correction concept to derive commands effectively. We first develop a two-branch neural network to predict time-to-go, assuming there is no constraints on target’s maneuvers. Using the predicted time-to-go, we then propose a biased proportional navigation guidance (PNG), where the the biased command is computed by a deep reinforcement learning (DRL) network, to correct the impact time. Results from intensive Monte-Carlo simulations validates the efficacy of the method.

AB - This paper proposes a data-driven learning guidance strategy to tackle the target interception problem with terminal time constraints. The developed guidance algorithm employs the prediction-correction concept to derive commands effectively. We first develop a two-branch neural network to predict time-to-go, assuming there is no constraints on target’s maneuvers. Using the predicted time-to-go, we then propose a biased proportional navigation guidance (PNG), where the the biased command is computed by a deep reinforcement learning (DRL) network, to correct the impact time. Results from intensive Monte-Carlo simulations validates the efficacy of the method.

KW - computational guidance

KW - deep reinforcement learning

KW - impact time guidance

KW - maneuvering target

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M3 - Article

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JO - Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering

JF - Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering

ER -

A data-driven learning guidance strategy for target interception with terminal time constraint

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Keywords

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