高光谱图像匹配滤波检测中像元大小与大气校正方法的比较

2009 First Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing Pub Date : 2009-10-16 DOI:10.1109/WHISPERS.2009.5289000

P. Conforti, R. Sundberg

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引用次数: 1

摘要

采用两种大气校正方法对不同空间分辨率的高光谱数据图像进行了重采样，得到了反射率。基于物理的FLAASH方法以及基于场景的QUAC方法检索场景的反射光谱，并确定使用结果检测图像中感兴趣的材料的能力。使用光谱匹配滤波器对结果进行评分，FLAASH和QUAC在2.4-24 m的地面采样距离上都能很好地匹配明亮的米大小物质的地面真值光谱。对于深色材料，QUAC性能随着分辨率的降低而下降。

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The comparison of pixel size and atmospheric correction method on matched filter detection for a hyperspectral image

Two atmospheric correction methods are used to obtain the reflectance for a hyperspectral data image resampled to varying spatial resolution. The physics-based FLAASH approach as well as the in-scene based QUAC method retrieve the reflectance spectra for the scene, and the ability to use the results to detect materials of interest in the image is determined. Using a spectral matched filter to score the results, both FLAASH and QUAC perform well at matching the ground truth spectrum of a bright meter-sized material at ground sampling distances of 2.4–24 m. For a dark material, QUAC performance degrades with lower resolutions.

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

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