Lockheed Martin's GOES-R solution builds upon the A2100 geosynchronous spacecraft bus and proven precision imaging capabilities from previous remote sensing programs.
洛克希德·马丁公司的GOES - R方案将建立在A2100地球同步卫星以及在先前远端感应项目中经证实的精确成像的基础上。
These imaging methods have been widely used in most remote sensing tasks, but due to the characteristics of the data, the processing of optical remote sensing signals is facing many challenges.
这些成像方式在多数遥感任务中得到广泛应用,但是由于数据自身的特点,在相关光学遥感信号的处理面临诸多挑战。
Microwave radiometer is the core equipment of passive microwave remote sensing and a powerful tool for ground objects radiation detection, imaging and characteristics recognition.
微波辐射计是无源微波遥感的核心设备,是进行地物背景微波辐射特性探测、成像和判断的主要工具。
Based on the backgrounds of imaging guidance, remote sensing technique, and information fusion technique, we have studied the methods of the remote sensing image processing in this paper.
本文以图像制导、遥感技术和信息融合技术为研究背景,较深入地进行了基于信息融合的遥感图像处理方法研究。
Due to the far imaging distance of optical remote sensing and the limitation of the physical size of CCD, the resolution of the remote sensing image is usually low.
由于光学遥感成像的距离较远和CCD物理尺寸的限制,获得的图像分辨率都比较低。
The actual airborne and satellite remote sensing imaging device, because of their own imaging principles and imaging platform jitter, is applied remote sensing image sub-pixel offset error.
实际的机载和星载遥感成像仪,由于自身成像原理和成像仪平台抖动原因,出现了遥感图像亚像素偏移误差。
The present and future of millimetre-wave radiometry are described in this paper from the aspects of radioastronomy, meteorology, remote sensing, and millimetre-wave imaging.
本文从射电天文学、气象学、遥感学和毫米波成象四个方面介绍了毫米波辐射测量的观状与未来。
A camouflage effectiveness test method based on optical remote sensing imaging simulation was proposed, which is better than the former test methods.
通过分析以往伪装效果检测方法的不足,提出基于光学遥感成像模拟的伪装效果检测方法。
Spaceborne microwave imaging instrument is an important about acquiring information in technology of satellite remote sensing. Its properties affect directly the satellite system.
星载微波成像仪是卫星遥感技术中获取信息的重要仪器,其性能直接影响整个卫星系统。
Imaging spectrometer is a kind of space remote sensing detector. It can get space and spectral distribution information of a target at the same time.
成像光谱仪是一种空间遥感探测器,它可以同时获取目标的空间和光谱分布信息。
The global change will be a undoubted target while the microwave remote sensing and the imaging spectrometer will be the representatives of the next generation of remote sensing techniques.
全球变化将成为遥感的重要目标,微波遥感、成像光谱技术等将是下一代遥感技术的主要代表。
Note, however that remote sensing also involves the sensing of emitted energy and use of non-imaging sensors.
注意,然而那遥感还包括传感辐射的能量和使用多样非图像传感器。
The spectral responsivity of IRFPA imaging detector is a basic physical parameter for the space infrared remote sensing.
红外焦平面成像器件的光谱响应率是天基红外遥感的基本物理指标。
As a kind of high resolution imaging radar, synthetic aperture radar (SAR) has been widely used in many remote sensing fields.
合成孔径雷达是一种高分辨率的成像雷达,被广泛应用于各遥感领域。
Because of the complexity in satellite remote sensing imaging system, some uncertainties or mixed spectrum information are contained in the data.
由于遥感成像过程的复杂性,遥感数据中包含了一定程度的不确定性因素。
It is a important task for imaging scheduling to acquire more image data of good quality by making rational and efficient use of the remote sensing satellite.
合理有效地利用遥感卫星资源获取更多高质量影像数据是卫星成像调度的重要工作。
In many applications, such as remote sensing, medical imaging, and military reconnaissance, image degradation remainds a common and urgent problem to be solved.
在许多应用领域,如遥感、医学成像和军事监察等,图像退化都是一个普遍存在且亟需解决的问题。
The image motion generated by the relative displacement between the ground scene and imaging system is the main cause of lower resolution in the imaging system of remote sensing satellite.
在遥感卫星成像系统中,地面景物与成像系统间的相对位移所产生的像移是造成分辨率下降的主要原因。
Reflective optical systems have small size, light weight and excellent imaging performance, which makes it very popular in space remote sensing systems.
反射系统具有体积小、重量轻成像性能优良等特点,在航天遥感中具有重要的应用潜力。
Finally, experiments are made based on an actual remote sensing camera's imaging electronics system in laboratory.
最后,在实验室条件下,以实际的遥感相机成像系统为依托进行了实验。
Finally, experiments are made based on an actual remote sensing camera's imaging electronics system in laboratory.
最后,在实验室条件下,以实际的遥感相机成像系统为依托进行了实验。
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