Optimal Fire Distribution Method of Airborne Dispenser to Airport Runway Blockade Based on NSGA-II

This paper aims to solve the optimal fire distribution problem of using airborne dispensers to block airport runways. Firstly, based on the principle of airborne dispenser attacking airport runway, the blocking probability model of single dispenser is established. On this basis, the blocking probability model of multiple dispensers is established. Secondly, the objective function with the largest blocking probability and the smallest amount of ammunition is constructed, and the optimal fire distribution model of airborne dispenser is established. Finally, the NSGA-II algorithm is used to solve the optimal fire distribution problem of the airborne dispenser, and the optimal strike aiming point is selected. The simulation results show that this method can quickly and effectively solve the optimal fire distribution problem of the airport runway blockade by the airborne dispenser. The relationship between the attack angle and the blocking probability is analyzed. Compared with the MOPSO and NSGA methods, the NSGA-II has the best optimization performance.