Optimized Design for Cockpit Protective Glass Construction against High Power Microwave Using Genetic Algorithm
According to main challenges to aircraft protection against high power microwave (HPM), the formula of electromagnetic transmission rate and reflectivity both for the perpendicularly and parallel) polarized incident field are modified and simplified, a shielded cockpit glass construction is designed by a new optimized method on genetic algorithm, and protective efficiency analysis on military aircrafts cockpit against HPM is carried out on a virtual 3D plane, airborne equipments and pilot model with a scale of 1:1. The verification simulation tests show the optimized construction has good protective efficiency in the range of carrier frequencies between 1-20 GHz, and protective intensity does not exceed limits of relevant international standard.
high power microwave cockpit protective glass construction soft kill finite difference time domain optimized design genetic algorithm
Jun Huang Hao-ran Zhang Yun-an Hu Yan Jin
Graduate Students Brigade Naval Aeronautical Engineering Institute Yantai, Shandong, China Department of Control Engineering Naval Aeronautical Engineering Institute Naval Equipment Departmen Department of Control Engineering Naval Aeronautical Engineering Institute Yantai, Shandong, China Graduate Students Brigade Naval Aeronautical Engineering Institute Yantai, Shandong, China
国际会议
2010 6th International Conference on MENS NANO,and Smart System(2010年微机电纳米、智能系统国际会议 ICMENS 2010)
长沙
英文
17-21
2010-12-14(万方平台首次上网日期,不代表论文的发表时间)