An air cavity method for increasing the underwater acoustic targets strength of corner reflector

In order to improve the underwater acoustic target strength of corner reflectors, according to the principle of acoustic impedance mismatch of the boundary layer, the method of using air cavity to increase the underwater acoustic target strength of corner reflectors is proposed. The acoustic reflection coefficients of underwater air layer and single layer metal sheet are calculated and compared. The results show that the reflection coefficient of single layer metal sheet is greatly affected by frequency and incidence angle, and the reflection coefficient of air layer in water is large and little affected by frequency and incidence angle. On this basis, a new kind of airfilled cavity corner reflector is designed. The acoustic scattering characteristics of underwater airfilled cavity corner reflector are calculated cumulatively, and the results are compared with the monolayer metal sheet corner reflector. The simulation results show that the acoustic reflection effect of the airfilled cavity corner reflector is better. In order to verify the correctness of the method, the test was carried out in the silencing tank. The experimental results show that the simulation results are in good agreement with the experimental results, and the airfilled cavity can improve on acoustic reflection performance of the underwater corner reflector.     

基于输入特性分析的光电跟踪内模控制设计

内模控制是一种基于对象教学模型进行控制器设计的新型控制策略,其设计思路是将对象模型与实际对象相并联,控制器逼近模型的动态逆.根据内模控制原理及光电跟踪系统参考输入及扰动输入特性,设计了一种新型位置控制器.并分析了IMC跟踪控制器的零稳念偏差及抗干扰性能.从仿真结果看,与常规PID控制相比,内模控制器参数调整简单、跟踪性能良好.特别是在针对目标突然机动的情况下.IMC控制器具有良好的稳态误差重构能力,即能迅速收敛到稳态误差.根据仿真结果数据统计,系统跟踪误差的均方根可减小到0.5 tarad,表明该控制器能够提高系统的跟踪精度,为高性能光电跟踪系统提供了一种新的控制策略.