Research On Mission Planning And Damage Effectiveness Evaluation Of Anti-ship Missile

Maritime warfare has a key strategic position in the future war,the warfare of anti-ship missile is the main mode of maritime warfare.In the form of information warfare,the mission planning and effectiveness evaluation directly determines the attack effectiveness of anti-ship missile.Therefore,three core problems of anti-ship missile cooperative firepower allocation,cooperative route planning and damage effectiveness evaluation are studied in this paper.First of all,this paper proposes a firepower allocation method based on genetic algorithm for multiple anti-ship missile firepower units to attack fleet formation.This method establishes a normalized firepower distribution mathematical model under the constraints of cost,benefit and coordination.The genetic algorithm is used to solve the optimal firepower distribution scheme,which effectively solves the problem of cooperative firepower distribution of multiple anti-ship missile fire units to attack fleet formation.Secondly,a cooperative path planning method of anti-ship missile based on quantum bidirectional RRT algorithm is proposed.This method establishes the cooperative path planning space of multiple anti-ship missile platforms under various threat and obstacle constraints.Meanwhile,combines the idea of quantum evolution and the extended principle of RRT algorithm,the improved algorithm has the characteristics of global convergence.The path with better synergy and convergence is obtained.Then,an evaluation approach of anti-ship missile damage effectiveness based on intuitionistic fuzzy entropy weight method is proposed.In this method,the intuitionistic fuzzy damage effectiveness evaluation matrix of anti-ship missile is established under the uncertain information environment.Combining intuitionistic fuzzy entropy weight method and multi-attribute decision-making theory,the problem of anti-ship missile damage effectiveness evaluation under uncertain information environment is solved.The reasonable evaluation results are obtained.Finally,based on the mixed programming of C ++ and MATLAB,the anti-ship missile target attack decision-making system is developed.This system involves firepower distribution,path planning and damage effectiveness evaluation of anti-ship missile.It has the integrated function of target attack decision and simulation.We can efficiently and quickly call the algorithm and vividly show the simulation results in this system.