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Multiconstrained Gliding Guidance Based on Optimal and Reinforcement Learning Method

Author

Listed:
  • Luo Zhe
  • Li Xinsan
  • Wang Lixin
  • Shen Qiang

Abstract

In order to improve the autonomy of gliding guidance for complex flight missions, this paper proposes a multiconstrained intelligent gliding guidance strategy based on optimal guidance and reinforcement learning (RL). Three-dimensional optimal guidance is introduced to meet the terminal latitude, longitude, altitude, and flight-path-angle constraints. A velocity control strategy through lateral sinusoidal maneuver is proposed, and an analytical terminal velocity prediction method considering maneuvering flight is studied. Aiming at the problem that the maneuvering amplitude in velocity control cannot be determined offline, an intelligent parameter adjustment method based on RL is studied. This method considers parameter determination as a Markov Decision Process (MDP) and designs a state space via terminal speed and an action space with maneuvering amplitude. In addition, it constructs a reward function that integrates terminal velocity error and gliding guidance tasks and uses Q-Learning to achieve the online intelligent adjustment of maneuvering amplitude. The simulation results show that the intelligent gliding guidance method can meet various terminal constraints with high accuracy and can improve the autonomous decision-making ability under complex tasks effectively.

Suggested Citation

  • Luo Zhe & Li Xinsan & Wang Lixin & Shen Qiang, 2021. "Multiconstrained Gliding Guidance Based on Optimal and Reinforcement Learning Method," Mathematical Problems in Engineering, Hindawi, vol. 2021, pages 1-12, May.
  • Handle: RePEc:hin:jnlmpe:6652232
    DOI: 10.1155/2021/6652232
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