子阵级自适应单脉冲是将单脉冲测角应用于多功能相控阵雷达所需要采用的技术。
The adaptive monopulse at subarray level is required for applying monopulse technique in multi-function phased array radar.
灵活有效的调度算法是实现多功能相控阵雷达工作性能优化和资源合理利用的基础。
An effective scheduling algorithm is very important in multifunction phased array radars to optimize performance and improve resource utilization ratio.
由于阵列天线的波束捷变能力,多功能相控阵雷达可对多个目标交替进行搜索、验证、跟踪等工作方式的操作。
Multifunction phased array radar (MFPAR) can perform not only search and track functions but also confirmation using the beam agile capability.
相控阵雷达通过电的方式控制天线孔径面上各辐射单元的相位变化,以实现波束的快速扫描,使其具有灵活、变化快速、多功能等优点。
Phase Array Radar can scan beams fast by controlling the phase of radiator elements in the antenna aperture surface, which shows many excellences such as agility, change celerity and multifunction.
把嵌入式计算机技术应用到雷达波控系统,可以实现相控阵雷达波控系统的小型化、模块化、集成化、高可靠性、多功能。
The using in radar beam steering system of embedded computer will make the system miniaturization, module, integrated, high reliability and multifunction.
把嵌入式计算机技术应用到雷达波控系统,可以实现相控阵雷达波控系统的小型化、模块化、集成化、高可靠性、多功能。
The using in radar beam steering system of embedded computer will make the system miniaturization, module, integrated, high reliability and multifunction.
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