水蒸气对原位短波红外高光谱成像聚合物分类的影响

Q3 Chemistry

Journal of Spectral Imaging Pub Date : 2022-06-01 DOI:10.1255/jsi.2022.a5

Muhammad Shaikh, Benny Thörnberg

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引用次数: 0

摘要

众所周知，高光谱遥感会受到被大气气体阻挡的波段的影响。即使光通过空气的路径长度只有几百厘米，就地装置的短波红外高光谱成像也会受到水蒸气的影响。这种影响在相对湿度变化较大时尤为明显，在我们的测试案例中，变化系数达到5%。在与测量时相同的相对湿度下对成像系统进行重复校准，我们能够将变异系数降低到1%。测量变化也会导致材料分类的显著误差。选择聚合物类型识别作为材料分类的测试案例。由于相对湿度的变化而引起的测量变化表明，其最小分类误差为20%。通过反复校准或从测量中消除最受影响的波长波段，我们能够将分类误差降低到1%以下。这种测量和分类精度的提高对废物分类、聚合物分类等工业应用具有重要意义。

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Impact of water vapour on polymer classification using in situ short-wave infrared hyperspectral imaging

Hyperspectral remote sensing is known to suffer from wavelength bands blocked by atmospheric gases. Short-wave infrared hyperspectral imaging at in situ installations is shown to be affected by water vapour even if the pathlength of light through air is only hundreds of centimetres. This impact is especially noticeable with large variations of relative humidity, the coefficient of variation reaching 5 % in our test case. Using repeated calibrations of imaging system at the same relative humidity as in the measurement, we were able to reduce the coefficient of variation to 1 %. The measurement variations are also shown to induce significant error in material classification. Polymer type identification was selected as the test case for material classification. The measurement variations due to the change in relative humidity are shown to result in 20 % classification error at its minimum. With repeated calibrations or by eliminating the most affected wavelength bands from measurements, we were able to reduce the classification error to less than 1 %. Such improvement of measurement and classification precision may be important for industrial applications such as waste sorting, polymer classification etc.

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来源期刊

Journal of Spectral Imaging Chemistry-Analytical Chemistry

CiteScore

3.90

自引率

0.00%

发文量

审稿时长

22 weeks

期刊介绍： JSI—Journal of Spectral Imaging is the first journal to bring together current research from the diverse research areas of spectral, hyperspectral and chemical imaging as well as related areas such as remote sensing, chemometrics, data mining and data handling for spectral image data. We believe all those working in Spectral Imaging can benefit from the knowledge of others even in widely different fields. We welcome original research papers, letters, review articles, tutorial papers, short communications and technical notes.