最常用的雷达能量回程测绘形式是基本反射率图。
The most commonly used form of radar energy return mapping is the Base Reflectivity graph.
根据航天飞机雷达地形测绘数据,上图中山谷周围的白线近似于苏加塔湖水位最高时的湖岸线。
Derived from Shuttle Radar Topography Mission (SRTM) data, the white line around the valley in the top image approximates the Lake Suguta shoreline when water levels were at their highest.
此前对于极地地区的卫星调查使用的是雷达测距技术,在对地球表面进行测绘时难以达到此次ICE卫星的激光测距仪的精度。
Polar regions have relied upon radar measurements that cannot map the Earth's surface with the same precision as the ICESat laser rangefinder.
也许先于德国的最有名的准全球星载数据集,是2000年来自美国的航天飞机雷达地形测绘任务(SRTM)。
Perhaps the best-known, near-global, space-borne data-set prior to the German venture came from the US Shuttle Radar Topography Mission (SRTM) of 2000.
地形数据来自于搭载在奋进号航天飞机上的飞船雷达地形测绘任务平台(theShuttleRadar Topography Mission),于2002年2月中旬获得的数据。
The topography is based on radar data collected during the Shuttle radar topography Mission, which flew onboard Space Shuttle.
根据雷达目标测绘区域的特点,结合地面目标的特性系数,给出了合成孔径雷达的目标测绘区域目标的模拟目标模型。
This paper describes the simulation targets model of the SAR scanning areas according to the characters of the radar targets in scanning area and the character coefficient of the ground targets.
雷达摄影测量是现代测绘高新技术之一。
采用单相位中心多波束(SPCMB)技术是实现高分辨率宽测绘带合成孔径雷达系统的一种技术途径。
Single Phase Center Multiple Beams (SPCMB) technique is one of solutions to implement high resolution wide swath spaceborne synthetic aperture radar systems.
合成孔径雷达在自然灾害预测、军事情报侦察、地形地貌测绘、资源考察等方面发挥着重要的作用。
It is widely used in the fields of disaster forecasting, military inspecting, terrain mapping and resources investigating, etc.
该文提出了一种新的基于距离向多孔径接收宽测绘带合成孔径雷达(SAR)成像方法。
A new imaging method is proposed for multi-aperture wide-swath Synthetic Aperture Radar (SAR) in this paper.
第一辆谷歌地图测绘车和自动驾驶车都曾经采用了成本高达数万美元,甚至更高的激光雷达系统。
The first Google mapping vehicles and self-driving cars employed ultra-expensive Lidar systems that cost tens of thousands of dollars or more.
低噪放广泛地应用于宇宙通讯、雷达、电子对抗、遥测遥控、射电天文、大地测绘、微波通信等无线电通信系统中。
The Low Noise Amplifier is widely used in Universe Communication, Radars, Electronic Countermeasures, Telemetry and Remote Mapping, Radio Astronomy, Geodetic, Microwave Communications, etc.
低噪放广泛地应用于宇宙通讯、雷达、电子对抗、遥测遥控、射电天文、大地测绘、微波通信等无线电通信系统中。
The Low Noise Amplifier is widely used in Universe Communication, Radars, Electronic Countermeasures, Telemetry and Remote Mapping, Radio Astronomy, Geodetic, Microwave Communications, etc.
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