Experiment and Analysis of On-Orbit Radiometric Calibration for Remote Sensors Based on In-Site Automated Observation Technology

Qiu Ganggang; Li Xin; Wei Wei; Zhang Quan; Zheng Xiaobing

doi:10.3788/aos201636.0701001

[1] Gong Hui, Tian Guoliang, Yu Tao, et al.. Calibration and validation of MODIS visible and near-infrared bands[J]. Journal of Beijing Jiaotong University, 2010, 34(1): 109-113.

[2] Guo Jianning, Min Xiangjun, Fu Qiaoyan, et al.. The in-flight absolute calibration for CBERS-02 CCD and SPOT-4 HRV IR1 sensors at Dunhuang test site and the comparison based on their coefficients[J]. Journal of Remote Sensing, 2006, 10(5): 624-629.

[3] Biggar S F. In-flight methods for satellite sensor absolute radiometric calibration[D]. Tucson: The University of Arizona, 1990: 16-22.

[4] Czapla-Myers J S, Thome K J, Lesso N P. Radiometric calibration of earth-observing sensors using an automated test site at Railroad Valley, Nevada[J]. Canadian Journal of Remote Sensing, 2010, 36(5): 474-487.

[5] Czapla-Myers J S. Automated ground-based methodology in support of vicarious calibration[D]. Tucson: The University of Arizona, 2006: 41-43, 54-57.

[6] Li Xin, Zheng Xiaobing, Yin Yapeng. Progress in automated sitevicarious calibration technologies[J]. Journal of Atmospheric and Environmental Optics, 2014, 9(1): 17-21.

[7] Schmechtig C, Santer R P, Roger J-C, et al.. Automatic ground-based station for vicarious calibration[C]. SPIE, 1997, 3221: 309-317.

[8] Kerola D X, Bruegge C J, Gross H N, et al.. On-orbit calibration of the EO-1 Hyperion and advanced land imager (ALI) sensors using the LED spectrometer (LSpec) automated facility[J]. IEEE Transactions on Geoscience and Remote Sensing, 2009, 47(4): 1244-1255.

[9] Gu Xingfa, Tian Guoliang, Yu Tao, et al.. Principles and methods of radiometric calibration for space optical remote sensor [M]. Beijing: Science Press, 2013: 78-79.

[10] Yin Yapeng, Li Xin, Zheng Xiaobing, et al.. Design and implement of automated site observing radiometer[J]. Journal of Atmospheric and Environmental Optics, 2016, 11(1): 44-50.

[11] Li Xin, Yin Yapeng, Liu Enchao, et al.. Automated test-site radiometer for vicarious calibration[C]. SPIE, 2014, 9264: 92640V.

[12] Bi Xueyan, Wu Dui, Tan Haobo, et al.. Application, calculation and calibration of Microtops II sunphotometer[J]. Meteorological Science and Technology, 2007, 35(4): 338-587.

[13] Yang Lei, Zhang Xuewen, Han Qijin. Retrieval and analysis of aerosol optical thickness over Dunhuangregion[J]. Journal of Atmospheric and Environmental Optics, 2014, 9(1): 37-42.

[14] Xu Qiuyun, Zheng Xiaobing, Zhang Wei, et al.. Advanced calibration method for sun radiometers[J]. Acta Optica Sinica, 2010, 30(5): 1337-1342.

[15] Tan Kun, Wan Jie, Tu Ruifang, et al.. Multi-purpose solar photometer[J]. Acta Optica Sinica, 1991, 11(5): 448-452.

[16] Li Yuan, Zhang Yong, Liu Jingjing, et al.. Calibration of visible and near-infrared channels of the FY-2C/FY-2D GEO meteorological satellite at radiometric site[J]. Acta Optica Sinica, 2009, 29(1): 41-46.

[17] Li Yuan, Rong Zhiguo, Zheng Zhaojun, et al.. Post launch site calibration of visible and near-infrared channels of FY-3A visible and infrared radiometers[J]. Optics and Precision Engineering, 2009, 17(12): 2966-2974.

[18] Li Y, Rong Z G, Zhang L J, et al.. The comparison of BRDF model and validation of MCD43 products by the 2013 Dunhung Gobi experiments[C]. SPIE, 2014, 9264: 926415.

[19] Sheng Peixuan, Mao Jietai, Li Jianguo, et al.. Atmospheric physics[M]. Beijing: Peking University Press, 2003: 18-23.

[20] Wang Bingzhong, Liu Gengshan. An estimation of total atmospheric water vapor in the mainland of China[J]. Acta Geographica Sinica, 1993, 48(3): 244-253.

[21] Wang Hong, Cao Yunchang, Guo Qiyun, et al.. Calculation of vapor pressure using sounding data[J]. Meteorological Science and Technology, 2013, 41(5): 847-851.

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