High speed data transfer interface is an essential component of semiconductor laser imaging radar system.
高速数据传输接口是半导体激光成像雷达系统的重要组成部分。
The matching of the local light wavefront and signal light wavefront in the laser coherent array imaging radar system will directly affect the sensitivity and resolution of the system.
激光相干阵列成象雷达系统中本振光波前与信号光波前匹配与否直接影响系统的灵敏度和分辨力。
SNC's 94 GHz HALS radar imaging system is the critical technology that enables pilots to 'see through' brownout conditions.
SNC公司94ghzHALS雷达成像系统是一种关键技术,可以让飞行员不受灯火管制的影响。
These conclusions are important for choosing suitable radar system parameters such as center frequency , resolution and imaging squint angle in engineering design.
这些结论对工程设计牛选择合适的工作参数,如载频、分辨率、成像斜角等具有较为重要的参考价值。
Generally, this system provide a powerful analysis and testing tool for the study of Laser range imaging radar and range image.
该系统为激光距离成像雷达以及距离图像的研究提供了一种有效的分析和测试工具。
And then it introduces synthetic aperture radar system model, the original echo of the simulation methods and R-D imaging algorithm.
然后建立了合成孔径雷达的系统模型,介绍了原始回波的模拟方法和R - D成像算法。
The way to test the malfunction of transmission lines system of the radar antennas fast and harmlessly by infrared thermal imaging technology are introduced.
文中介绍利用红外热成像技术对雷达天线馈线系统的故障进行快速、无损伤检测的方法。
Imaging laser radar system is significant to precise guidance, obstacle avoidance of helicopters and some other applications.
成像激光雷达系统对精确制导、直升机防撞等都具有重要的意义。
The operation mode, imaging method and system′s control problem of a active radar imaging seeker are investigated.
研究了主动雷达成像导引头的工作模式、成像方法和系统控制方式。
This paper addresses the research of ground moving target imaging and positioning in Synthetic Aperture Radar (SAR) system.
该文针对正侧视合成孔径雷达工作体制下运动目标成像、定位问题进行研究。
The experiment results show that this system can satisfy the demands of laser radar testing and will be a good field-testing tool for laser radar imaging system.
实验结果表明该系统可满足激光雷达性能测试要求,为激光雷达成像系统研制提供了可靠的现场测试工具。
The data volume and the high real-time are the two vital problems of Synthetic Aperture Radar (SAR) real-time imaging system.
高时效性和大数据量是合成孔径雷达(SAR)实时成像处理系统的两个主要问题。
Bistatic Synthetic Aperture radar (Bistatic SAR) is a new system of imaging radar.
双站合成孔径雷达(简称双站SAR)是一种新的成像雷达体制。
An Optical Synthetic Aperture Radar Prccessor (OSARP) is different from the conventional imaging system. It warks after Synthetic Aperture Radar (SAR) and processes image from SAR data film.
合成孔径雷达光学处理器(OSARP)与普通成像系统不同,它处理合成孔径雷达(SAR),数据片。
Relationship between the target scattering function and the echo signal is deduced to hold as a Fourier transform pair by analyzing the texture of echo signal for a passive radar imaging system;
首先分析了无源雷达成像系统的目标回波形式,得到了目标散射分布函数和雷达接收信号之间的傅里叶变换对关系;
This paper presents the principle of Sythetic Aperture Radar(SAR) imaging and describes the system hardware of airborneSAR real-time digital signal processing system with ultra-high speed DSP .
本文首先简单介绍了合成孔径雷达(SAR)成像原理,并对以超高速数字信号处理器(DS)为核心的机载合成孔径雷达实时成像处理系统的硬件结构作了描述。
And reviewed its application in practice - Car radar-assisted imaging system.
并综述了其在实际中的应用——车载雷达成像辅助系统。
In order to analyze imaging problems in spaceborne bistatic SAR system, it is important to establish a relevant radar echo model.
为了研究星载双基地SAR系统成像的相关问题,必须先建立其回波信号模型。
The techniques of detection, location and imaging of moving target based on external illuminators are now a very interested research field in new style radar system.
基于外辐射源的运动目标探测、定位与成像技术是目前新体制雷达研究的热点之一。
The techniques of detection, location and imaging of moving target based on external illuminators are now a very interested research field in new style radar system.
基于外辐射源的运动目标探测、定位与成像技术是目前新体制雷达研究的热点之一。
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