The aircraft is equipped with a new complex of avionics which integrates the electronic function and a prospective phased-array radar.
该机装配有新型的航空电子系统,整合了电子功能和透视相控阵雷达两项。
As hardware and software have become more complex and IT and development teams have gotten smaller, the potential for something to slip under the radar, so to speak, has grown.
随着硬件和软件日益变得复杂,以及IT团队的人员越来越少,检测能力可能会下降。
The system can not only evaluate the performance of multi target track algorithm in EW environment, but also evaluate the integrate performance of netted radar in complex EW environment.
该系统不仅可以用来评价多目标跟踪算法在电子战条件下的性能,而且也可以用来评估雷达网在复杂电子战条件下的综合性能。
This paper introduces the application and design methods of a large scale Complex Programable Logic Device (CPLD) in radar signal processing system moving target detection circuit.
介绍了一种大规模复杂可编程逻辑器件(CPLD)在雷达信号处理系统中动目标检测电路的应用及具体实现方法。
A method integrating software radio technology with software and hardware is used to realize living simulation of MF radar signal under complex sea battlefield EM environment.
采用软件无线电技术和软硬件相结合的方法较逼真地实现了海战场复杂电磁环境下雷达中频信号的模拟。
Because of the complex and fluctuant background in radar, classical CFAR detection technology lose its stability.
由于雷达检测背景的复杂和起伏,经典CFAR检测不能保持稳定的检测性能。
A new method for analyzing the Radar Cross Section (RCS) of a complex scatterer is put forward in the paper, which is a method of frequency characteristic extrapolating.
本文提出了一种新的复杂散射体雷达散射截面(RCS)的分析方法——频率特性外推法。
For improving targets location accuracy and fully utilizing redundant information in complex bistatic radar systems, a new target location algorithm based on Gauss-Newton iterative is proposed.
为了提高复合双基地雷达系统对目标的定位精度,以及充分利用冗余信息,提出了基于高斯·牛顿算法的空间目标定位算法。
A new method to realize complex control of radar servo system is presented in this paper.
提出了一种实现雷达伺服系统复合控制的新方案。
Under the condition fo modern information war, radar faces the gradually complex electromagnetic environment.
在现代信息战条件下,雷达面临的电磁环境日益复杂。
An universal radar target Simulator for radar testing is proposed in this paper, which can realize the complex simulation of radar target.
本文提出了一种基于雷达测试的通用目标信号模拟器的设计方案,实现了对复杂雷达目标信号的模拟。
Synthetic aperture radar(SAR)image has some common features such as huge data volume, relative complex algorithm.
合成孔径雷达(SAR)成像具有数据量巨大、算法比较复杂等特点。
The producing methods of various threaten signals are researched. And the model of the dense and complex radio frequency pulse signals is founded on the analysis of single radar signal.
本文研究了各种威胁信号的产生方法,在单部雷达辐射信号分析的基础上建立了密集,复杂射频脉冲信号的模型。
As new radar systems are born and the radar is becoming more complex, requirements for automation and protection function of power supply are becoming higher and higher.
随着新体制雷达的不断出现以及雷达系统的复杂化,对电源系统的自动化和防护功能提出了越来越高的要求。
When the object environment of ship radar signal is complex, detecting object is very difficult.
由于舰船雷达信号目标环境的复杂性,从强杂波中检测目标异常困难。
Based on the computation of complex targets RCS in optical region, methods of space objects wideband radar signature simulation, including HRR and ISAR image, are studied in this paper.
在光学区复杂目标RCS特征信号计算基础上,重点研究了空间目标宽带雷达特征信号包括高分辨一维距离像和二维isar图像仿真建模方法。
Complex in signal structure, Abundance in Spike, it is the major factor degrading detection performance of radar.
由于海杂波信号复杂,包含有大量的尖峰,一直是影响雷达探测性能的主要因素之一。
Broadband radar absorbing materials were prepared by blending modified poly (vinyl chloride) with complex absorbers including regular powder absorbers and conducting fibers.
采用常规粉体吸收剂和导电纤维作为复合吸收剂,掺混于改性聚氯乙烯基体中,制备出宽频雷达吸波材料。
The radar cross section (RCS) of complex combination objects is studied and the typical algorithm of shooting and bouncing ray (SBR) is improved to enhance the speed and accuracy of computation.
研究复杂组合体目标后向散射场问题,并对射线跟踪法的典型算法进行改进,以提高计算精度和运算速度。
In complex and varied signal environment, it is necessary to determine interested radar's parameters with high speed and accuracy for radar reconnaissance system.
复杂多变的雷达信号环境要求雷达侦察系统能快速、准确地测量各被测雷达的信号参数。
Analyses for the electromagnetic scattering properties of complex targets coated with anisotropic materials are presented, which provide theoretical support for the radar stealth and anti-stealth.
对各向异性材料涂覆复杂目标的电磁散射特性进行分析,为目标的雷达隐身和反隐身提供理论支持。
This method can help us to increase the reliability of radar emitter recognition under complex battle circumstances.
该方法可在复杂战场环境下充分利用不同来源的信息,提高雷达识别的可靠性。
Modern radar system becomes increasingly complex, it's difficult to process with simple and intuitive method, therefore, the method of radar system simulation gets increasingly popularized.
现代雷达系统日益变得复杂,难以用简单直观的分析方法进行处理,因此,雷达系统模拟法日益获得推广。
To realize efficient solution of electromagnetic(EM) scattering from complex target has very practical value for the design of radar system and identify of radar target.
复杂目标电磁散射的高效求解对于雷达系统设计与雷达目标识别具有十分重要的意义。
As radar reconnaissance environment is very complex, noise interfering pulse and pulse missing process are introduced.
考虑到雷达侦察信号环境的复杂性,引入了噪声干扰脉冲和脉冲丢失处理。
Graphical Electromagnetic computing (GRECO) is one of the valuable method for computing the radar cross section (RCS) of complex radar target in high frequency region.
图形电磁计算(GRECO)方法是计算复杂目标高频区雷达散射截面(RCS)的有效方法之一。
Graphical Electromagnetic computing (GRECO) is one of the valuable methods for computing the radar cross section (RCS) of complex radar target in high frequency region.
图形电磁计算(GRECO)方法是计算复杂目标高频区雷达散射截面(RCS)的有效方法之一。
The experimental results are in good agreement with the theoretical ones. Some conclusions are drawn which are useful to the analysis and design of complex radar structure.
实验分析结果与理论计算吻合较好,为复杂天线系统的结构动力性能设计提供了理论和设计依据。
The experimental results are in good agreement with the theoretical ones. Some conclusions are drawn which are useful to the analysis and design of complex radar structure.
实验分析结果与理论计算吻合较好,为复杂天线系统的结构动力性能设计提供了理论和设计依据。
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