从高炮数字指挥仪研制过程中的一系列实践表明,很需要一种与之相适应的考验检查手段,因此设计一台具有形成目标运动航路,能够进行精度分析等功能的数值处理机是十分必要的。这就能将大部分野外试验变为室内试验,从而能及时发现被试指挥仪的若干问题,迅速给出指挥仪整机精度。这种计算机的好处是:给研究部门论证指挥仪提供方案;给生产部门检查产品;给靶场进行航路录取、航迹描绘和精度分析。这样就大大地减少研制过程中的造机台次,缩短研制周期,节省人力、物力和财力。下面就介绍这种计算机的数学模型和工作时的方块图。 A series of experiments in the process of developing the AAIG indicate that it is very necessary to have an appropriate test and inspection method. Therefore, it is very important to design a numerical processor capable of forming a target sports route, capable of performing precision analysis, etc. necessary. This will turn most of the field trials into laboratory tests, so that we can find out some problems of the pilot's pilot in time and quickly give the accuracy of the pilot's whole machine. The benefits of such a computer are: providing a solution to the research department's demonstration director; checking the product in the production department; en route entry, track mapping and accuracy analysis to the shooting range. This will greatly reduce the number of machine tools in the development process, shorten the development cycle and save manpower, material and financial resources. The following describes the mathematical model of this computer and work block diagram.