1) radar reconnaissance system
雷达侦察系统
1.
This paper analyzes the difficulties that signal processing facing in the course of developing the radar reconnaissance system,expounds the development direction of radar reconnaissance systems signal processor in three aspects:total concepts,components and new algorithm research.
分析了雷达侦察系统研制过程中信号处理所面临的各种难点,对雷达侦察系统信号处理机今后的发展方向从总体概念、组成架构和新的算法研究3个方面进行了阐述。
2) airborne radar reconnaissance system
机载雷达侦察系统
1.
The test of airborne radar reconnaissance system is to obtain a great deal of correlation data about the equipment under the static and dynamic environment via various test ways,through analyzing and sorting to these data,every performances of the system are evaluated objectively and justly.
开发了一套机载雷达侦察系统试验数据录取及处理软件,以完成该系统试验过程中数据的录取及处理,实现了对试验数据从人工处理到自动处理的转变。
3) radar reconnaissance
雷达侦察
1.
The radar reconnaissance equipments adopting instantaneous frequency measurement(IFM) technology can t correctly measure the frequency of radar singals which arrive simultaneously and multi-carrier appearing in monopulse.
采用瞬时测频技术的雷达侦察设备对于同时到达的雷达信号和单个脉冲内出现的多个载频无法正确测量频率,针对瞬时测频雷达侦察设备的这一弱点,雷达可以采取相关措施进行反侦察。
2.
Many shortcomings of radar reconnaissance equipment in the complicated electromagnetic environment are listed, the reasons produced these problems are analyzed ,and the methods to improve the equipment performance are provided.
雷达侦察设备是一种对雷达进行电子侦察的装备。
3.
The signals environment simulation is an important measure in performance testing of the radar reconnaissance equipments.
信号环境仿真是检验雷达侦察设备性能的重要手段。
4) reconnaissance radar
侦察雷达
1.
This paper analyzes scouting efficiency and educes calculating model based on Markov process according to the characteristics of moving target reconnaissance radar and its finding steps, and gives application example.
根据活动目标侦察雷达的特点和发现目标的环节,用马尔可夫过程对侦察系统的雷达搜索效率进行 分析,得出计算模型,给出应用实例。
2.
The implementation scheme of IF digitization for reconnaissance radar is given.
针对传统模拟接收机在实现方式上的不足,提出了侦察雷达数字化接收机的性能改进方案。
5) surveillance radar
侦察雷达
1.
Applications of Complex Programmable Logic Device (CPLD) in short range surveillance radar are also introduced.
介绍了可编程逻辑器件 ( PLD)的发展和现状、主要类型、特点及其选用准则 ,并介绍了复杂可编程逻辑器件 ( CPLD)在近程侦察雷达多功能信号发生器及信号处理器中的应
6) radar anti-reconnaissance
雷达反侦察
补充资料:Trml-3d侦察与目标捕获雷达系统
Image:1178701836395813.jpg
trml-3d是一种现代化的全机动式雷达系统,安装在8轮驱动的man卡车上,可实施快速部署。该系统配备有嵌入式惯性导航系统和全球定位系统,可在雷达快速展开时提供雷达 位置坐标。trml-3d还能够在运动过程中与其它预警雷达和指挥中心保持密切协作。
trml-3d的探测距离为200千米,根据工作模式的不同,其天线扫描周期在2-15秒之间。由于其雷达仰角为45度,最大目标高度为20千米,因此雷达没有战术弹道导弹跟踪能力。不过,trml-3d可以探测到各种类型的空气动力目标(如小型无人机、直升机等),并能进行自动跟踪(最多可同时跟踪100个目标)。该系统的完全展开时间少于10分钟,由于自动化程度较高,其装卸过程只需两名操作手便可完成。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。