High-Speed Three-Dimensional Aerial Vehicle Evasion Based on a Multi-Stage Dueling Deep Q-Network

High-Speed Three-Dimensional Aerial Vehicle Evasion Based on a Multi-Stage Dueling Deep Q-Network

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This paper proposes a multi-stage dueling deep Q-network (MS-DDQN) algorithm to address the high-speed aerial vehicle evasion problem.High-speed aerial aluminum lotion vehicle pursuit and evasion are an ongoing game attracting significant research attention in the field of autonomous aerial vehicle decision making.However, traditional maneuvering methods are usually not applicable in high-speed scenarios.Independent of the aerial vehicle model, the implemented MS-DDQN-based method searches for an read more approximate optimal maneuvering policy by iteratively interacting with the environment.Furthermore, the multi-stage learning mechanism was introduced to improve the training data quality.

Simulation experiments were conducted to compare the proposed method with several typical evasion maneuvering policies and to reveal the effectiveness and robustness of the proposed MS-DDQN algorithm.