光谱学与光谱分析 |
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Spectral Calibratioo of Hyperspectral Imager Based on Spectral Absorption Target |
GOU Zhi-yang1,2, YAN Lei1, 2*, CHEN Wei1, 2, ZHAO Hong-ying1, 2, YIN Zhong-yi1, 2, DUAN Yi-ni1, 2 |
1. Institute of RS & GIS, School of Earth and Space Science, Peking University, Beijing 100871, China 2. Beijing Key Lab of Spatial Information Integration & Its Applications, Peking University, Beijing 100871, China |
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Abstract Retrieval of center wavelength and bandwidth is a key step for quantitative analysis of hyperspectral data. The present paper proposes a spectral calibration method of hyperspectral imager, whose spectrum covers visible and near-infrared band, using spectral absorption target. Ground calibration experiment was designed for a hyperspectral imager with a bandwidth of 6 nm. Hyperspectral imager and ASD spectrometer measured the same spectral absorption target synchronously. Reflectance spectrum was derived from the different data set. Center wavelength and bandwidth were retrieved by matching the reflectance data from hyperspectral imager and ASD spectrometer. The experiment result shows that this method can be applied in spectral calibration of hyperspectral imagers to improve the quantitative studies on hyperspectral imagery.
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Received: 2011-09-29
Accepted: 2012-05-08
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Corresponding Authors:
YAN Lei
E-mail: lyan@pku.edu.cn
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[1] Davis C O, Bowles J, Leathers R A, et al. Optics Express, 2002, 10: 210. [2] Gu Y F, Chen W, Wang S Z, et al. Pattern Recognition Letters, 2011, 32(2): 114. [3] Tiwari K C, Arora M K, Singh D. International Journal of Applied Earth Observation and Geoinformation, 2011, 13(5): 730. [4] Zhang L F, Yan L, Yang S W. Proceedings of SPIE, 2006, 64190M: 1. [5] ZHANG Jun-qiang, SHAO Jian-bing,YAN Chang-xiang, et al(张军强, 邵建兵, 颜昌翔,等). Chinese Optics(中国光学), 2011, 4(2): 175. [6] Gao B C, Montes M J, Davis C O. Remote Sensing of Environment, 2004, 90: 424. [7] Guanter L, Richter R, Moreno J. Applied Optics, 2006, 45(10): 2360. [8] Barry P S, Shepanski J, Segal C. Proc. SPIE, 2002, 4480: 231. [9] Montgomery H, Che H Z, Parker K, et al. IEEE Transaction on Geoscience and Remote Sensing, 2000, 38(2): 877. [10] Nevillea R A, Sun L X, Staenza K. Proc. SPIE, 2003, 5093: 144. [11] Robert O G, Betina E P, Thomas G C. IEEE Transaction on Geoscience and Remote Sensing, 2003, 41(6): 1194. [12] Felde G W, Anderson G P, Cooley T W, et al. Proc. IEEE IGARSS, 2003, (1): 90. [13] Wang T X, Yan G J, Ren H Z, et al. IEEE Transaction on Geoscience and Remote Sensing, 2010, 48(11): 3924. |
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