Yuanyuan Jia; Zhaoliang Li
Source Publicationchinesegeographicalscience
AbstractThe radiative transfer is one of the significant theories that describe the processes of scattering, emission, and absorption of electromagnetic radiant intensity through scattering medium. It is the basis of the study on the quantitative remote sensing. In this paper, the radiative characteristics of soil, vegetation, and atmosphere were described respectively. The numerical solution of radiative transfer was accomplished by Successive Orders of Scattering (SOS). A radiative transfer model for simulating microwave brightness temperature over land surfaces was constructed, designed, and implemented. Analyzing the database generated from soil-vegetation-atmosphere radiative transfer model under Advanced Microwave Scanning Radiometer-Earth Observing System (AMSR-E) configuration showed that the atmospheric effects on microwave brightness temperature should not be neglected, particularly for higher frequency, and can be parameterized. At the same time, the relationship between the emissivities of the different channels was developed. The study results will promote the development of algorithm to retrieve geophysical parameters from microwave remotely sensed data.
Document Type期刊论文
First Author Affilication中国科学院地理科学与资源研究所
Recommended Citation
GB/T 7714
Yuanyuan Jia,Zhaoliang Li. soilvegetationatmosphereradiativetransfermodelinmicrowaveregion[J]. chinesegeographicalscience,2008,018(002):171.
APA Yuanyuan Jia,&Zhaoliang Li.(2008).soilvegetationatmosphereradiativetransfermodelinmicrowaveregion.chinesegeographicalscience,018(002),171.
MLA Yuanyuan Jia,et al."soilvegetationatmosphereradiativetransfermodelinmicrowaveregion".chinesegeographicalscience 018.002(2008):171.
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