Surface Soil Moisture Estimation from Modis Apparent Thermal Inertia: A Comparison With Smos And Smap Soil Moisture Products

机译：通过Modis表观热惯性估算地表土壤水分：与Smos和Smap土壤水分产品的比较

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L-band radiometry has been considered the preferred technique for global soil moisture (SM) remote sensing, as the Soil Moisture and Ocean Salinity (SMOS) and the Soil Moisture Active Passive (SMAP) missions proved. Owing the limited spatial resolution of current L-band radiometers, several downscaling algorithms have been developed to enhance the SMOS and SMAP SM resolutions. In this regard, the apparent thermal inertia (ATI) may be used for indirectly estimating SM, not only for disaggregation. In this study, l-km ATI-derived SM was obtained from March 31, 2015 to December 31, 2016, using Moderate Resolution Imaging Spectroradiometer (MODIS) as an alternative to L-band radiometry. The ATI-derived SM was validated over the Soil Moisture Measurement Stations Network of the University of Salamanca (REMEDHUS). Comparisons with in situ SM showed slightly lower correlation (~0.62), but similar error (~0.043 m^{3·m^{-3) and lower bias (~0.027 m^{3·m^{-3) than the existing SMOS and SMAP products, whilst improving the resolution.}}}}

机译：L波段辐射测量已被认为是全球土壤湿度（SM）遥感的首选技术，因为证明了土壤水分和海洋盐度（SMOS）和土壤水分主动被动（SMAP）任务。由于当前L波段辐射计的空间分辨率有限，因此已经开发了几种缩小尺寸的算法来增强SMOS和SMAP SM的分辨率。在这方面，表观热惯性（ATI）可以用于间接估计SM，而不仅用于分解。在这项研究中，从2015年3月31日至2016年12月31日获得了1公里ATI衍生的SM，使用中分辨率成像分光光度计（MODIS）替代了L波段辐射测量。 ATI衍生的SM已通过萨拉曼卡大学（REMEDHUS）的土壤水分测量站网络进行了验证。与原位SM的比较显示出较低的相关性（〜0.62），但相似的误差（〜0.043 m ^{3
·米
^{-3
）和较低的偏差（〜0.027 m
^{3
·米
^{-3
），而不是现有的SMOS和SMAP产品，同时提高了分辨率。}}}}

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《IEEE International Geoscience and Remote Sensing Symposium》|2018年|80-83|共4页
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M. Pablos; A. González-Zamora; N. Sanchez; J. Martinez-Fernandez; G. Portal; M. Vall-Llossera;
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MODIS; Land surface; Soil moisture; Land surface temperature; L-band; Spatial resolution; Estimation;

机译：MODIS;土地表面;土壤水分;土地表面温度; L带;空间分辨率;估算;

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专利

1. Estimation of Root Zone Soil Moisture Using Apparent Thermal Inertia With MODIS Imagery Over a Tropical Catchment in Northern Thailand [J] . Chang T.-Y. Selected Topics in Applied Earth Observations and Remote Sensing, IEEE Journal of . 2012,第3期

机译：利用表观热惯性和MODIS影像估算泰国北部热带流域根区土壤水分
2. Spatial upscaling of in-situ soil moisture measurements based on MODIS-derived apparent thermal inertia [J] . Qin J., Yang K., Lu N., Remote Sensing of Environment: An Interdisciplinary Journal . 2013,第Null期

机译：基于MODIS的表观热惯性的原位土壤水分测量值的空间放大
3. The potential of multitemporal Aqua and Terra MODIS apparent thermal inertia as a soil moisture indicator [J] . Van doninck Jasper, Peters Jan, De Baets Bernard, International journal of applied earth observation and geoinformation . 2011,第6期

机译：多时相Aqua和Terra MODIS表观热惯性作为土壤湿度指示剂的潜力
4. Surface Soil Moisture Estimation from Modis Apparent Thermal Inertia: A Comparison With Smos And Smap Soil Moisture Products [C] . M. Pablos, A. González-Zamora, N. Sanchez, IEEE International Geoscience and Remote Sensing Symposium . 2018

机译：莫迪斯明显热惯性的表面土壤水分估算：与SMOS和SMAP土壤水分产品的比较
5. Why is SMOS dry compared to soil moisture observed by the South Fork in situ soil moisture network? [D] . Walker, Victoria A. 2016

机译：为什么SMOS干燥与南叉观察到原位土壤湿度网络的土壤水分相比？
6. Global Assessment of the SMAP Level-4 Surface and Root-Zone Soil Moisture Product Using Assimilation Diagnostics [O] . Rolf H. Reichle, Gabrielle J. M. De Lannoy, Qing Liu, -1

机译：使用同化诊断对SMAP 4级表面和根区土壤水分产品进行全球评估
7. Assessment of Root Zone Soil Moisture Estimations from SMAP, SMOS and MODIS Observations [O] . Miriam Pablos, Ángel González-Zamora, Nilda Sánchez, 2018

机译：评估SMAP，SMOS和MODIS观测的根区土壤水分估计
8. Assimilation of Smos Observations to Generate a Prototype SMAP Level 4 Surface and Root-Zone Soil Moisture Product. [R] . Reichle, R. H., De Lannoy, G. J. M., Crow, W. T., 2012

机译：smos观测的同化产生原型smap 4级表面和根区土壤水分产物。

Surface Soil Moisture Estimation from Modis Apparent Thermal Inertia: A Comparison With Smos And Smap Soil Moisture Products

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