Automated Sortie Scheduling Optimization for Fixed-Wing Unmanned Carrier Aircraft and Unmanned Carrier Helicopter Mixed Fleet Based on Offshore Platform

Optimizing naval aircraft deck sortie scheduling is important for improving the efficiency of groups. It also an link in realizing automated carriers. Firstly, a single-aircraft surface transit path library was constructed. This paper used improved A* algorithm and optimal control planning to construct between parking position take-off position, or warmable non-warmable positions. Secondly, mathematical optimization model constructed mixed fleet fixed-wing carrier helicopters. The took maximum time taxiing as objectives, considered process flow, spatial, resource constraints. Thirdly, discretized whale (IWOA) designed solve problem. To improve optimization-seeking capability algorithm, we optimized its coding method, introduced pre-constraints, learning factors, parameter improvements, population restart. Finally, set up various cases proposed new strategy simulation experiments: these simulations verified validity model, excellent performance IWOA, superiority strategy. research this study will help implement scheduling.