利用高光谱遥感数据反演冠层含水量

2009 First Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing Pub Date : 2009-10-16 DOI:10.1109/WHISPERS.2009.5289058

J. Clevers, L. Kooistra

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引用次数: 3

摘要

冠层含水量(CWC)对了解陆地生态系统的功能具有重要意义。在970 nm和1200 nm吸水特征斜率处的光谱导数为CWC的估计提供了良好的潜力。本研究以大面积放牧的沼泽草甸为试验场地。结果与PROSAIL辐射传输模型的模拟结果进行了比较。在970 nm处特征左斜率处的一阶导数与CWC高度相关，这种关系与PROSAIL模拟的关系相对应。建议在940 - 950 nm区间内使用导数。为了避免干扰大气水蒸气的吸收，建议在970 nm吸收特征的右斜率处使用一阶导数估计CWC。相关性略低于左坡，但优于以往研究中使用水带指数得到的相关性。FieldSpec测量表明，在1015 nm和1050 nm之间的区间内，可以在右斜率的中间附近使用导数。

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Using hyperspectral remote sensing data for retrieving canopy water content

Canopy water content (CWC) is important for understanding functioning of terrestrial ecosystems. Spectral derivatives at the slopes of the 970 nm and 1200 nm water absorption features offer good potential as estimators for CWC. An extensively grazed fen meadow is used as test site in this study. Results are compared with simulations with the PROSAIL radiative transfer model. The first derivative at the left slope of the feature at 970 nm is found to be highly correlated with CWC and the relationship corresponds to the one found with PROSAIL simulations. Use of the derivative over the 940 – 950 nm interval is suggested. In order to avoid interference with absorption by atmospheric water vapour, the potential of estimating CWC using the first derivative at the right slope of the 970 nm absorption feature is recommended. Correlations are a bit lower than those at the left slope, but better than those obtained with water band indices, as shown in previous studies. FieldSpec measurements show that one may use derivatives around the middle of the right slope within the interval between 1015 nm and 1050 nm.

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2009 First Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing

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