1) atmospheric transmission meter
大气透射仪
1.
Measuring data comparative analysis between atmospheric transmission meter and forward scatter meter in the low visibility weather
大气透射仪与前散射仪在低能见度条件下的测量数据对比分析
3) atmospheric transmissivity
大气透射率
1.
Based on the difference between the glint-contaminated pixel and nearby nonglint pixel,the atmospheric absorption feature which can be used to tune the input parameters of the atmospheric radiative transfer model is obtained,then the atmospheric transmissivity is calculated,and the major factors which influence the degree of glint contamination are discussed in detail.
根据被耀斑污染的像素和邻近未污染像素间的辐射差值,获得大气组分的吸收特征,并调节大气辐射传输模型中的模型参量,进而得到大气透射率。
2.
Because of some shortcomings for the current atmospheric transmissivity calculation methods used in the real-time simulation of infrared imaging, a new algorithm for calculating the atmospheric transmissivity in the real-time simulation of infrared imaging is proposed according to the real-time and accurate requirements of transmissivity calculation.
考虑到当前国内外红外成像实时仿真中大气透射率计算方法的一些不足,本文根据透射率计算的实时性和准确性的要求,提出了一种用以计算红外成像实时仿真中大气透射率的新的计算方法,并用Visual C++6。
4) Atmosphere transmittance
大气透射比
1.
The method to calculate the atmosphere transmittance was offered under certain meteorological condition.
利用实验数据 ,计算得到了大气中水汽 (H2 O)、CO2 的光谱吸收系数 ,推导了水汽吸收系数与温度、相对湿度之间的关系 ,给出了在给定气象条件下计算大气透射比的方法。
5) Atmospheric transmittance
大气透射率
1.
This study is concerned with the calculation of atmospheric transmittance and weighting functions of IRSR based on GENLN2 spectral transmittance database and RTTOV7 fast transmittance model.
利用GENLN2逐线光谱透射率数据库和RTTOV7快速辐射传输模式,计算了风云三号A星(FY-3A)红外分光计(IRSR)的快速透射率系数,在此基础上计算了IRSR的通道大气透射率和权重函数。
2.
Some input parameters such as brightness temperature,land surface emissivity,and atmospheric transmittance were required to retrieve LST.
选用了ETM+热红外的高增益61波段,对热红外波段反射率较低的植被覆盖研究区进行了地表温度反演,并反演地表温度所需要的几个参数:亮度温度、地表比辐射率、大气透射率。
6) atmospheric transmission band
大气透射带
补充资料:青海瓦里关大气基准观象台的大气二氧化碳监测系统
青海瓦里关大气基准观象台的大气二氧化碳监测系统
青海瓦里关大气基准观象台的大气二氧化碳监测系统 温玉璞摄
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条