Research on Multi-objective Optimization Design of Thrust Vector Control Actuator
Aiming at the seriously nonlinear problems of the single nozzle thrust vector control servo system,this paper detailedly deduced the functional relations between the layout of actuators and system dynamic parameters,on the basis of which,a multi-objective optimization model was established with coupling degree,angular asymmetry,as well as length and variation degree of initial swinging arm taken into consideration.Linear weighting method was adopted to convert the multi-objective function into a uni-objective one and an improved genetic algorithm with good robustness was utilized to solve the optimization problem.Calculation results demonstrated that,with this optimization algorithm,sub-objective functions all reach the ideal effects when uni-objective function achieves optimum.The optimization method guarantees that coupling degree,angular asymmetry and swinging arm variation achieve minimum when the initial swinging arm length is at its maximum,which provides theoretical basis for the actuator layout of thrust vector control.
Thrust vector control Multi-objective optimization Swinging nozzle Genetic algorithm
Jun Zhou Jiao Long Zhang Feng Qi Zhou
Institute of Precision Guidance and Control,Northwestern Polytechnical University,Xian Shaanxi,710072,China
国际会议
广州
英文
15-20
2012-11-16(万方平台首次上网日期,不代表论文的发表时间)