光谱学与光谱分析 |
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New Method Study of Sites Vicarious Calibration for SZ-3/CMODIS |
HU Xiu-qing1,2,LIU Jing-jing2,QIU Kang-mu2,FAN Tian-xi2,ZHANG Yu-xiang2,RONG Zhi-guo2,ZHANG Li-jun2 |
1. Institute of Remote Sensing Applications, Chinese Academy of Sciences, Beijing 100101, China 2. Key Laboratory of Radiometric Calibration and Validation for Environmental Satellites, China Meteorological Administration (LRCVES/CMA), National Satellite Meteorological Center, Beijing 100081, China |
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Abstract Chinese MODIS onboard ShenZhou-3 spacecraft (SZ-3/CMODIS)is the experiment instrument of next generation environmental and meteorological satellites. CMODIS can obtain the data of 30 bands in visible and near infrared region from the earth-atmosphere system. But the quantitative application of these data is limited by radiometric calibration. The present paper addresses a new concept of semi-synchronous measurements with satellite observation based on the traditional sites vicarious calibration. It can meet the expected calibration requirement under the condition of no enough ground measurements. In addition to this, the reflectance of Dunhuang Calibration site is very smooth on the Vis-NIR spectral region. A new cross-calibration was also conducted experimentally using the spectral interpolation of atmospheric correction reflectance from EOS/MODIS. The results of these two methods were compared and verified with each other and showed that they are effective and reliable. These new radiometric calibration methods provide good technique experiences for the next generation in-flight optical sensors.
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Received: 2007-12-21
Accepted: 2008-03-26
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Corresponding Authors:
HU Xiu-qing
E-mail: hxq@nsmc.cma.gov.cn
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[1] Slater P N, Biggar S F, Holm R G, et al. Remote Sensing of Envirnment, 1987, 22(1): 11-37. [2] Biggar S F, Gellman D I, Slater P N. Remote Sensing of Environment, 1990, 36: 91. [3] Vermote E, Santer R, Deschamps P Y, et al. International Journal of Remote Sensing, 1992, 13(18): 3049. [4] Kaufman Y J, Holben B N. International Journal of Remote Sensing, 1993, 14(1): 21. [5] Rao C R N, Chen J. Journal of Remote Sensing, 1995, 16(11): 1931. [6] Hu Xiuqing, Zhang Yuxiang, Liu Zhiquan, et al. SPIE Proceeding, 2000, 4151: 77. [7] RONG Zhi-guo, ZHANG Yu-xiang, QIU Kang-mu(戎志国,张玉香,邱康睦). Quarterly Journal of Applied Metologia(应用气象学报),2004,15(3): 266. [8] Teilleta P M, Barker J L, Markham B L, et al. Remote Sensing of Environment, 2001,78: 39. [9] Liu J-J, LI Z, QIAO Y-L, et al. Int. J. Remote Sensing, 2004, 25(23): 5267. [10] HU Xiu-qing, ZHANG Yu-xiang, QIU Kang-mu, et al(胡秀清,张玉香,邱康睦,等). Proceegings of China Remote Sensing Sensors Radiometric Calibration(中国遥感卫星辐射校正场科研论文选编). Beijing: Ocean Press(北京:海洋出版社), 2001. 156,655. [11] HU Xiu-qing,ZHANG Yu-xiang, QIU Kang-mu, et al(胡秀清,张玉香,邱康睦,等). Journal of Remote Sensing(遥感学报), 2003,7(6): 458. [12] ZHANG Yu-xiang, ZHANG Guang-shun, et al(张玉香,张广顺,等),Acta Meteorological Sinica(气象学报),2002,60(6):740. [13] GU Xing-fa, TIAN Guo-liang, LI Xiao-wen, et al(顾行发,田国良,李小文,等). Science in China E(中国科学E辑),2005,35:1. [14] ZHANG Yong, GU Xing-fa, YU Tao,et al(张 勇,顾行发,余 涛,等). Journal of Infrared and Millimeter Waves(红外与毫米波学报), 2006,25(4):261. [15] HU Xiu-qing, ZHANG Yu-xiang, ZHANG Guang-shun, et al(胡秀清, 张玉香, 张广顺, 等). Journal of Applied Meteorology(应用气象学报), 2001, 12(3): 257. [16] HU Xiu-qing,ZHANG Yu-xiang, et al(胡秀清, 张玉香, 等). Meteorological Science and Technology(气象科技),2001, 29(3): 12. [17] LI Xiao-ying, GU Xing-fa, MIN Xiang-jun, et al(李小英,顾行发,闵祥军,等). Science in China E(中国科学E辑),2005,35:41. [18] PAN De-lu, HE Xian-qiang, ZHU Qian-kun(潘德炉,何贤强,朱乾坤). Chinese Science Bulletin(科学通报),2004, 49(21):2239. [19] ZHU Xiao-xiang, FAN Tian-xi, HUANG Qian(朱小祥,范天锡,黄 签). Journal of Infrared and Millimeter Waves(红外与毫米波学报),2004, 23(6): 451.
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