1·The attenuation can be determined by using microwave radiometer.
大气对微波的衰减可以用微波辐射计来测定。
2·The signal given by the antenna of spaceborne microwave radiometer is a wide band noise power signal.
星载微波辐射计的天线提供的是宽带噪声功率信号。
3·A new method of radiowave refractive error correction is given, which adopts atmospheric remote sensing by microwave radiometer.
提出了一种电波折射误差修正的新方法,即用微波辐射计采用大气遥感的方法进行电波折射实时修正。
4·Integration time of microwave radiometer can be set easily by rc integration circuit in series with digital integration circuit.
采用RC积分电路和数字积分器相级联的积分方法,可以方便灵活的设置辐射计的积分时间。
5·In this paper, the necessity of studying, high spatial resolution and high sensitivity microwave radiometer was introduced briefly.
简述了进行高空间分辨率,高灵敏度微波辐射计研究的必要性。
6·Direct sampling microwave radiometer (DSMR) is a digital radiometer of simple structure, which directly samples radio frequency signals.
直接采样微波辐射计对射频信号直接采样,是一种结构简单的数字辐射计。
7·Generally the spatial resolution of spaceborne microwave radiometer is low since its antenna size and weight are limited by its platform.
由于天线尺寸和重量受到限制,星载微波辐射计的空间分辨率通常都比较低。
8·Now a method is suggested which USES a passive remote sensing equipment-microwave radiometer for detection and identification of air object.
文中提出了微波辐射计去探测和识别空中目标的方法。
9·Several issues on microwave remote sensing of the lunar soil and rock are discussed based on multi channels microwave radiometer technology.
根据现有的多通道被动辐射计技术,讨论微波辐射遥感月壤月岩特征参数的几个问题。
10·Microwave Radiometer is a passive microwave measurement device. It passively receives the random noise radiated by the objects and environment.
微波辐射计是一种无源微波测量装置,它本身不发射微波信号,只是被动的接收目标及环境辐射的随机噪声。
1·Several issues on microwave remote sensing of the lunar soil and rock are discussed based on multi channels microwave radiometer technology.
根据现有的多通道被动辐射计技术,讨论微波辐射遥感月壤月岩特征参数的几个问题。
2·Integration time of microwave radiometer can be set easily by rc integration circuit in series with digital integration circuit.
采用RC积分电路和数字积分器相级联的积分方法,可以方便灵活的设置辐射计的积分时间。
3·The primary experiment results validate that feasibility of real-time signal processing for synthetic aperture microwave radiometer and the correctness of the system design.
初步的实验结果验证了综合孔径辐射计光学实时信号处理的可行性及系统设计的正确性。