A Radiative Transfer Model for Soil Media with Considering the Volume Effects of Soil Particles: Field Observation and Numerical Simulation

机译：考虑土壤粒子体积效应的土壤介质辐射转移模型：现场观察与数值模拟

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This paper presents the development of an improved soil radiative transfer model (RTM) which considering the volume scattering effect of soil particles, an unexplored part of traditional RTMs, through field experiments and numerical simulations. The field observations were conducted by using the Ground Based Passive Microwave Radiometer (GBMR) to measure the brightness temperature of dry sand layer over background materials, metal plates or absorbers. The existence of volume scattering effects in the dry sand was demonstrated through field experiments. Then, the observed data were simulated by the dense media radiative transfer (DMRT) model. The simulation results show that the DMRT model which includes the volume scattering effects performers better than the generally used surface emission model which does not include volume scattering effects.

机译：本文介绍了一种改进的土壤辐射转移模型（RTM），其考虑土壤颗粒的体积散射效果，通过现场实验和数值模拟。通过使用基于地基的无源微波辐射计（GBMR）进行现场观察，以测量背景材料，金属板或吸收剂的干砂层的亮度温度。通过现场实验证明了干砂中体积散射效应的存在。然后，通过致密介质辐射转移（DMRT）模型模拟观察到的数据。仿真结果表明，包括体积散射效应的DMRT模型比通常使用的表面发射模型更好地表现出不包括体积散射效果的常用表面发射模型。

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《IEEE International Geoscience and Remote Sensing Symposium》|2006年||共4页
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作者
Hui LU; Toshio KOIKE; Hiroyuki TSUTSUI; Tobias GRAF; David Ndegwa KURIA; Hideyuki FUJII; Masato MOURITA;
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中图分类 P3-53;
关键词
Soil radiative transfe model; Volume scattering; Field observation; GBMR; DMRT;

机译：土壤辐射转换模型;体积散射;现场观察;GBMR;DMRT;

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4. A Radiative Transfer Model for Soil Media with Considering the Volume Effects of Soil Particles: Field Observation and Numerical Simulation [C] . Hui LU, Toshio KOIKE, Hiroyuki TSUTSUI, IEEE International Geoscience and Remote Sensing Symposium . 2006

机译：考虑土壤粒子体积效应的土壤介质辐射转移模型：现场观察与数值模拟
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机译：对1.4 GHz裸土的遥感土壤水分观测值的验证：通过辐射转移模型的定量方法，以表征由农田中的积水事件引起的突然转变，对辐射转移模型的修改以及基于地面的移动系统
6. Simulation of the Vapor Intrusion Process for Non-Homogeneous Soils Using a Three-Dimensional Numerical Model [O] . Ozgur Bozkurt, Kelly G. Pennell, Eric M. Suuberg -1

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7. Validation of remotely-sensed soil moisture observations for bare soil at 1.4 GHz:A quantitative approach through radiative transfer models to characterize abrupt transitions caused by a ponding event in an agricultural field,modifications to radiative transfer models,and a mobile groundbased system [O] . Erbas, Cihan 2009

机译：对1.4 GHz裸土的遥感土壤水分观测值的验证：通过辐射转移模型的定量方法，以表征由农田中的积水事件引起的突然转变，对辐射转移模型的修改以及基于地面的移动系统

A Radiative Transfer Model for Soil Media with Considering the Volume Effects of Soil Particles: Field Observation and Numerical Simulation

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