Research on optimization and simulation of coordination of fuze and warhead for attack UAV based on damage trace model

Facing the needs UAV of achieving intelligent and efficient damage for attack UAV in combat operations, there is a lack of research on the coordination of fuze and warhead for attack UAV considering the damage model and terminal trajectory correction. This paper proposes a novel method of the coordination of fuze and warhead to optimize the damage efficiency. A pilot-fight coordination simulation experiment is conducted under a certain actual combat background in the end. The method firstly gets the optimal detonation position and attitude results based on the simulated annealing algorithm and damage trace model. Then based on the trajectory planning results using the three-dimensional Dubins algorithm, the autonomous maneuver to the optimal detonation position and attitude considering the maximization of the damage effect are realized. The process of initiating battle and coordination is verified, and the feasibility and optimization effect of the developed algorithm are demonstrated. The research of this paper will also provide a new solution for the attack UAV pilot-fight operation control technology in practical application.