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Error characterization of SMOS, ASCAT, SMAP, ERA and ISMN soil moisture products: Automatic detection of cross-correlation error through extended quadruple collocation

机译：SMOS，ASCAT，SMAP，ERA和ISMN土壤水分产品的误差特征：通过扩展四重配置自动检测互相关误差

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The triple collocation (TC) technique is being increasingly used to validate soil moisture retrievals derived from different sensors. In recent years, several extensions of this method were proposed in order to evaluate the error standard deviations of more than three systems. As the number of datasets grows the TC fundamental hypothesis, i.e. the absence of cross-correlation between the system errors, could be violated. In this paper, an Extended Quadruple Collocation (E-QC) is proposed to consider the presence of the error cross-correlation between soil moisture products, identifying automatically the couple of cross-correlated systems. The method is applied to soil moisture retrievals provided by satellite (SMOS, ASCAT, SMAP), model (ERA

机译：三重配置（TC）技术正越来越多地用于验证从不同传感器中获取的土壤水分。近年来，为了评估三个以上系统的误差标准偏差，提出了对该方法的若干扩展。随着数据集数量的增加，TC基本假设即系统错误之间不存在互相关性可能会受到侵犯。在本文中，提出了扩展四重配置（E-QC），以考虑土壤水分产品之间存在误差互相关，自动识别交叉相关的系统对。该方法适用于卫星（SMOS，ASCAT，SMAP），模型（ERA）提供的土壤水分反演。

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《International Geoscience and Remote Sensing Symposium》|2017年|4154-4157|共4页
会议地点 Fort Worth(US)
作者
Fabio Fascetti; Nazzareno Pierdicca; Luca Pulvirenti; Raffaele Crapolicchio;
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作者单位

Department of Information Engineering Electronics and Telecommunications Sapienza Univ. of Rome (Italy) via Eudossiana 18 00184 Rome Italy;

CIMA Research Foundation via A. Magliotto 2 17100 Savona Italy;

Serco SpA via Sciadonna 24/26 00044 Frascati Italy;

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Soil moisture; Standards; Satellites; Satellite broadcasting; Probes; Data models; Mathematical model;

机译：土壤湿度;标准；卫星；卫星广播；探针;数据模型；数学模型;

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专利

1. Error Characterization of Soil Moisture Satellite Products: Retrieving Error Cross-Correlation Through Extended Quadruple Collocation [J] . Nazzareno Pierdicca, Fabio Fascetti, Luca Pulvirenti, Selected Topics in Applied Earth Observations and Remote Sensing, IEEE Journal of . 2017,第10期

机译：土壤水分卫星产品的误差特征：通过扩展四重配置检索误差互相关
2. Global-scale evaluation of SMAP, SMOS and ASCAT soil moisture products using triple collocation [J] . Chen Fan, Crow Wade T., Bindlish Rajat, Remote Sensing of Environment: An Interdisciplinary Journal . 2018,第期

机译：使用三重搭配的全球范围评估液体扫描，SMOS和ASCAT土壤水分产品
3. Spatial Evaluation and Assimilation of SMAP, SMOS, and ASCAT Satellite Soil Moisture Products Over Africa Using Statistical Techniques [J] . B. G. Mousa, Hong Shu Earth and Space Science . 2020,第1期

机译：利用统计技术对非洲的空间评估和同化扫描，SMOS和ASCAT卫星土壤水分产品
4. Error characterization of SMOS, ASCAT, SMAP, ERA and ISMN soil moisture products: Automatic detection of cross-correlation error through extended quadruple collocation [C] . Fabio Fascetti, Nazzareno Pierdicca, Luca Pulvirenti, IEEE International Geoscience and Remote Sensing Symposium . 2017

机译：SMOS，ASCAT，SMAP，ERA和ISMN土壤湿度产品的误差特征：通过扩展四分代搭配自动检测互相关误差
5. Automatic detection of patient identification and positioning errors in radiotherapy treatment using 3D setup images. [D] . Jani, Shyam Shirish. 2015

机译：使用3D设置图像自动检测放射治疗中的患者识别和定位错误。
6. Evaluating soil moisture retrievals from ESA’s SMOS and NASA’s SMAP brightness temperature datasets [O] . A. Al-Yaari, J.-P. Wigneron, Y. Kerr, -1

机译：从ESA的SMOS和NASA的SMAP亮度温度数据集中评估土壤水分的反演
7. Global-scale evaluation of SMAP, SMOS and ASCAT soil moisture products using triple collocation [O] . Fan Chen, Wade T. Crow, Rajat Bindlish, 2018

机译：使用三重搭配的全球范围评估SMAP，SMOS和ASCAT土壤水分产品

Error characterization of SMOS, ASCAT, SMAP, ERA and ISMN soil moisture products: Automatic detection of cross-correlation error through extended quadruple collocation

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