并详细论述了建立大气传输模型、场景建模及其红外辐射建模的方法。
The methods to make atmospheric transfer model, scene model and infrared radiation model are discussed.
利用大气对光的散射作用可以实现非视线通信。在单次散射假定下,研究了非视线光散射通信系统的大气传输模型。
Based on the assumption of single-scattering, atmospheric propagation model of non-line-of-sight optical scattering communication system is studied.
基于大气传输模型,采用光线传输的实际轨迹对天顶角进行修正处理,得出天顶角随发射角和传输高度的变化复杂函数。
Based on the atmospheric transmission model, through the actual ray track, the zenith Angle is revised, which is a complicated function with launch Angle and altitude.
以辐射传输理论为基础,建立了大气距离选通成像系统后向散射光和信号光的模型。
Based on the radiation transmission theory, a model of optical backscatter and signal of atmosphere range-gated imaging system was given.
以辐射传输理论为基础,建立了大气距离选通成像系统后向散射光和信号光的模型。
Based on the radiation transmission theory, a model of optical backscatter and signal of atmosphere range-gated imaging system is given.
第二章进行了大气辐射传输模型的模拟与分析。
The second chapter will introduce the simulation and analysis of atmospheric radiation transferring model.
建立了激光通过倾斜和水平的大气随机信道的数学传输模型。
Models describing laser beam propagate through horizontal and slant atmospheric stochastic channel are built.
本论文还深入分析了大气衰减效应和大气湍流效应对激光传输的影响,然后给出了一种基于大气信道效应的大气信道模型。
The influence of atmospheric attenuation and turbulence to laser transmission is profoundly analyzed in the paper. Then , A model, based the atmospheric attenuation and turbulence effects, is present.
本文主要研究内容包括:1、结合同步气象辅助数据,利用6S辐射传输模型法,对太湖水体影像进行大气校正;
The main contents of this study are as follows:1, Making atmospheric correction with 6S radiative transfer model, combined with synchronous meteorologic records;
根据大气的辐射传输方程提出了一种计算速度快、精度高尾焰紫外辐射传输的模型,这种模型的收敛性已得到证明。
Based on radiative transfer equation, a model which has high precision and compute fast has been designed. The convergence of this model has been confirmed.
第四章根据反演得到的气溶胶光学厚度和大气水汽含量,利用辐射传输模型计算大气校正参数的方法来对遥感图像进行大气校正。
The forth one gives a method to correct the atmospheric effects by taking the AOD and water vapor content inversion results into the atmospheric radiation transferring model.
本文的工作是神经网络方法在建立电波大气传输效应预报模型应用中的有益尝试。
It is a useful try to construct the radio wave propagation predication model by the neural network.
论文研究了影响大气激光传输的大气吸收、散射、湍流和热晕效应,构建了大气信道模型。
Then the paper researches into atmospheric absorption which influences on atmosphere laser transmission, scattering, rapids, thermal blooming effect and the constructs atmospheric channel model.
本文总结了三类大气校正技术方法,大气辐射传输模型是理论上处理精度最高的方法。
This paper summarizes three methods of atmospheric correction, and atmospheric radiative transfer model is the most accurate method.
本文总结了三类大气校正技术方法,大气辐射传输模型是理论上处理精度最高的方法。
This paper summarizes three methods of atmospheric correction, and atmospheric radiative transfer model is the most accurate method.
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