摘要
炮长镜分系统是装甲火控的关键分系统之一,随着未来装甲火控系统围绕高速机动作战概念的提出,对高扰动条件下炮长镜分系统稳定精度提出了更高要求。提出了采用二级稳定技术提高炮长镜分系统的稳定精度,在对二级稳定控制原理的分析和二级稳定理论数学计算的基础上,提出了适合炮长镜分系统的二级稳定方案,并进行了Matlab/Simulink仿真,理论计算和仿真结果证明稳定精度显著提高。
Gunner’s sight,as one of the key subsystem in armor fire control system,along with advancing the high-speed maneuverable combat requirement in future armor fire control system,puts forward high requirement of stabilized accuracy under high disturbance condition,the paper provides the method of adopting second-level stabilized technology to improve stabilized accuracy of gunner’s sight subsystem,gives second-level stabilized scheme adapting for gunner’s sight subsystem based on analysis of two-level stabilized control principle and mathematical calculation of second-level stabilized theory,and perform Matlab/Simulink simulation,its theory computation and simulation result proves improvement of stabilized accuracy.
出处
《火力与指挥控制》
CSCD
北大核心
2014年第S1期134-136,共3页
Fire Control & Command Control
关键词
二级稳定
快速反射镜
炮长镜分系统
陀螺
仿真
second-level stabilization,fast steering mirror,gunner's subsystem,gyro,simulation
