复杂光学环境下零飞试验的仿真与评估

Simulation and Evaluation of Zero Fly Test in Complex Optical Environment

针对目前国内高炮武器系统进行标校试验过程中,没有可靠的试验参数作为依据和指导的问题,提出在进行零飞测试前应对复杂光学环境下的试验条件进行仿真与评估。建立包括测试环境、传输环境、相机参数以及测试条件在内的仿真评估模型,将仿真结果作为实际零飞测试的理论依据,并对零飞测试的结果进行了误差分析。结合零飞试验的实际数据,验证了该模型的正确性和可行性,建立的模型能够提高零飞测试试验的效益和精度。

No reliable experimental parameters can be used as basis and guidance for the calibration test of anti-aircraft gun weapon system. For the question,the conditions of test in the complex optical environment should be simulated and assessed before zero-fly test. A simulation and assessment model,including test environment,transmission environment,camera parameter and test condition,is presented. In the proposed model,the simulation results are used as the theoretical foundation of zero-fly test,and the errors of zero-fly test results are analyzed. The results show that the model can improve the benefit and accuracy of zero-fly test.