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利用多时相双极化TerraSAR-X数据评估农作物生物量

Biomass Assessment of Agricultural Crops Using Multi-temporal Dual-Polarimetric TerraSAR-X Data.

作者信息

Ahmadian Nima, Ullmann Tobias, Verrelst Jochem, Borg Erik, Zölitz Reinhard, Conrad Christopher

机构信息

Department of Remote Sensing, Institute of Geography and Geology, University of Wuerzburg, Oswald-Külpe-Weg 86, 97074 Würzburg, Germany.

Department of Physical Geography, Institute of Geography and Geology, University of Wuerzburg, Am Hubland, 97072 Würzburg, Germany.

出版信息

J Photogramm Remote Sens Geoinform Sci. 2019 Oct;87:159-175. doi: 10.1007/s41064-019-00076-x. Epub 2019 Oct 1.

Abstract

The biomass of three agricultural crops, winter wheat L.), barley L.), and canola L.), was studied using multi-temporal dual-polarimetric TerraSAR-X data. The radar backscattering coefficient sigma nought of the two polarization channels HH and VV was extracted from the satellite images. Subsequently, combinations of HH and VV polarizations were calculated (e.g. HH/VV, HH + VV, HH × VV) to establish relationships between SAR data and the fresh and dry biomass of each crop type using multiple stepwise regression. Additionally, the semi-empirical water cloud model (WCM) was used to account for the effect of crop biomass on radar backscatter data. The potential of the Random Forest (RF) machine learning approach was also explored. The split sampling approach (i.e. 70% training and 30% testing) was carried out to validate the stepwise models, WCM and RF. The multiple stepwise regression method using dual-polarimetric data was capable to retrieve the biomass of the three crops, particularly for dry biomass, with > 0.7, without any external input variable, such as information on the (actual) soil moisture. A comparison of the random forest technique with the WCM reveals that the RF technique remarkably outperformed the WCM in biomass estimation, especially for the fresh biomass. For example, the > 0.68 for the fresh biomass estimation of different crop types using RF whereas WCM show < 0.35 only. However, for the dry biomass, the results of both approaches resembled each other.

摘要

利用多时相双极化TerraSAR-X数据研究了三种农作物(冬小麦(L.)、大麦(L.)和油菜(L.))的生物量。从卫星图像中提取了HH和VV两个极化通道的雷达后向散射系数σ₀。随后,计算HH和VV极化的组合(如HH/VV、HH + VV、HH × VV),使用多元逐步回归建立SAR数据与每种作物类型的鲜生物量和干生物量之间的关系。此外,使用半经验水云模型(WCM)来考虑作物生物量对雷达后向散射数据的影响。还探索了随机森林(RF)机器学习方法的潜力。采用分割采样方法(即70%训练和30%测试)来验证逐步模型、WCM和RF。使用双极化数据的多元逐步回归方法能够在没有任何外部输入变量(如(实际)土壤湿度信息)的情况下,以>0.7的精度反演三种作物的生物量,特别是干生物量。随机森林技术与WCM的比较表明,在生物量估计方面,RF技术明显优于WCM,尤其是对于鲜生物量。例如,使用RF估计不同作物类型的鲜生物量时,R²>0.68,而WCM仅显示R²<0.35。然而,对于干生物量,两种方法的结果相似。

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本文引用的文献

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