The HALS system provided the UH-60 pilots with continuous 3d real-time radar imagery of the landing zone throughout the approach, hover, and landing in complete brownout.
在灯火管制情况下,在整个接近、盘旋和着陆过程中,HALS系统可以向UH - 60飞行员提供着陆区的连续三维实时雷达图像。
The authors deal with the working and imaging principles and technical specifications of the 3D directional borehole radar in details and, combined with field data, show its true application results.
笔者对3D定向钻孔雷达系统的工作和成像原理、技术规格进行了详细说明,并结合现场数据说明了其实际应用效果。
The contents applied successfully to the 3D radar product, its technology is reliable and effective.
文中的内容在某三坐标雷达产品中已获得成功应用,技术可靠有效。
The hardware includes a computer and a set of self-developed 3D laser scanning system that is based on a 2D laser radar.
系统的硬件由一套自行设计的基于2D激光雷达的三维扫描系统和一台电脑构成。
The design of a characteristic phased array 3D radar antenna system is discussed and the main path realizing the center of three-in-one combination is proposed in this paper.
本文通过剖析具有代表性的某大型相控阵雷达天线系统设计,探讨实现“三心合一”的设计方法。
In this paper the visualization of radar detection range is discussed and the implementation method of the 3d visualization of radar maximum detection range is given.
对雷达探测范围可视化进行了探讨,给出了实现雷达最大探测范围三维可视化的方法。
To enhance the traditional 2d laser radar's capability acquiring geometric information of environment, a fast 3d scanning laser radar system was designed.
为了增强传统二维激光雷达的环境几何信息采集能力,设计了一个快速三维扫描激光雷达系统。
In this method, the effect of most real environment factors is considered with parabolic equation. Finally, the method of building and rendering 3d model of radar maximum detection range is given.
该方法综合考虑真实环境因素的影响,采用了抛物方程方法,最后给出了雷达最大探测范围三维模型的建立和表现方法。
A new type of three-dimensional (3D) imaging laser radar is introduced. It uses streak tube as the receiver, which makes the radar have the peculiarities of high frame rate and wide range angle.
介绍了一种新型激光三维成像方法,该方法用条纹管作为成像系统的接收端,使激光三维成像雷达具有高帧频、大视场角的特点。
According to the procedure of data gaining, data processing and data rendering, the 3D detection range of radar on specific electronic jamming environment was rendered via Visualization Toolkit (VTK).
根据数据获取、数据处理和数据渲染的流程,利用可视化软件包(VTK)实现了对雷达探测范围的三维显示。
A SOFTWARE upgrade to existing radar systems will allow aircraft to map landscapes and buildings in 3d, and make it easier to spot part-hidden objects on the ground.
通过现有的雷达系统的软件升级,可使飞机能绘制三维的地面风景和建筑物地图,并更容易辨认出地面上部分隐藏的目标。
Initially, the 3d radar will be carried on Predator drones.
最初,该三维雷达将被载在掠夺者无人机上。
A set of 3d laser radar scanning system which is made up of motion control card, stepper motor and 2d laser radar has been designed.
设计了一套由运动控制卡、步进电机和2d激光雷达组合而成的3d激光雷达扫描系统。
The 3D representation of Radar electromagnetic information affected by terrain, ocean and weather is a crucial problem in the future Digital Virtual Battlefield Environment (DVBE).
地形、海洋、气象等环境影响下雷达电磁信息的三维表现是未来数字化虚拟战场环境不可回避的问题。
The 3d representation of Radar electromagnetic situation is a crucial requirement in the future Digital Battlefield.
雷达电磁态势的三维表现是未来数字化战场的必然要求。
On the basis of studying the existing VVP theories and algorithms, a new method of VVP algorithm is proposed for meteorological radar wind 3D retrieval.
在研究了现有气象雷达三维风场反演的VVP方法的基础上,提出了一种新的基于三维风场均匀分布假设的三维风场VVP反演算法。
When we reconstruct surface use 3d-imaging laser radar data, because of there are noises in it, we need to filter the data.
在对三维成像激光雷达获取的数据进行曲面重构时,由于数据中存在噪声,需要对数据进行滤波处理。
The performance improvement of 3d Radar with 2d-electronically scanning antenna is discussed in this paper in detail.
文中着重讨论了采用二维电扫相控阵天线后3d雷达性能的改善和应用潜力。
Golden King Deep Processor Radar system is the first system in the world to analyze target signals in real-time and to translate them into 3d signal graphics.
黄金王深处理器雷达系统是第一个在世界上系统的分析目标信号的实时和将其转化为三维图形信号。
Estimation of target altitude is quite significant to achieving 3d information and increasing early-warning ability for HF surface wave radar (HFSWR).
高度估计对于高频地波雷获取三维信息、提高预警能力很有意义。
Estimation of target altitude is quite significant to achieving 3d information and increasing early-warning ability for HF surface wave radar (HFSWR).
高度估计对于高频地波雷获取三维信息、提高预警能力很有意义。
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