[1] LIANG Shun-lin. Quantitative remote sensing ofland surfaces[M]. FAN Jie-wen, et al Transl, Beijing: Science Press, 2009: 130-141.

[2] ZHENG Xiao-bing. Some respects for development of radiometric calibration techniques for optical remote sensing satellites[J]. Journal of Atmospheric And Environmental Optics, 2014, 9(1): 2-8.

[3] MEYGRET A, SANTER R and BERTHELOT B. ROSAS a robotic station for atmosphere and surface characterization dedicated to on-orbit calibration[C]. SPIE, 2011, 8153: 815311.

[4] QIU Gang-gang. Development and calibration applications of automatic observation system on satellite radiometric calibration site[D]. Hefei: University ofScience and Technology of China, 2017.

[5] TEILLET P M, BARSI J A, CHANDER G, et al. Prime candidate earth targets for the post-launch radiometric calibration of space-based optical imaging instruments[C]. SPIE, 2007, 6677: 66770S.

[6] HEIDINGER A K, SULLIVAN J T, RAO C R. Calibration of visible and near-infrared channels of the NOAA-12 AVHRR using time series of observations over deserts.[J].International Journal of Remote Sensing, 2003, 24(18): 3635-3649.

[7] SUN Ling, HU Xiu-qing, GUO Mao-hua, et al. Multisite calibration tracking for FY-3A MERSI solar bands[J]. Advances in Meteorological Science and Technology, 2013, 3(4): 84-96.

[8] HAN Qi-jin, FU Qiao-yan, ZHANG Xue-wen, et al. High-frequency radiometric calibration for wide field-of-view sensor of GF-1 satellite[J]. Optics and Precision Engineering, 2014, 22(7): 1707-1714.

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

[10] HAN Qi-jin, ZHANG Xue-wen, QIAO Zhi-yuan, et al. Wide dynamic radiometric calibration of GF-1 PMS sensors using multi-test sites[J]. Infrared and Laser Engineering, 2015, 44(1): 127-133.

[11] SUN Ling, HUXiu-qing, XU Na, et al. Postlaunch calibration of Feng Yun-3B MERSI reective solar bands[J]. IEEE Transactions on Geoscience and Remote Sensing, 2013, 51(3): 1383-1392.

[12] STRAHLER AH , MULLER J P, MODIS Science Team Members. MODIS BRDF/albedo product: Algorithm theoretical basis document version 5.0[Z]. 1999.

[13] WANG Ling, HU Xiu-qing, CHEN Lin. FY-3C/MERSI calibration for solar band using multi-reflectance stable targets[J]. Optics and Precision Engineering, 2015, 23(7): 1911-1920.

[14] LIU J J, LI Z, QIAO Y L, et al. A new method for cross-calibration of two satellite sensors[J]. International Journal of Remote Sensing, 2004, 25(23): 5267-5281.

[15] LI Yuan, RONG Zhi-guo, ZHENG Zhao-jun, et al. Post launch site calibration of visible and near-infrared channels of FY-3A visible and infrared radiometers[J]. Optics and Precision Engineering, 2014, 17(12): 2966-2974.

[16] HU Xiu-qing, LIU Jing-jing, QIU Kang-mu, et al. New method study of sites vicarious calibration for SZ-3/CMODIS[J]. Spacecraft Recovery & Remote Sensing, 2009, 29(5): 1153-1159.

[17] LIU Li, GAO Hai-liang, PAN Zhi-qiang. On-orbit radiometric calibration method research based on deep learning theory[J]. Spacecraft Recovery & Remote Sensing, 2017, 38(2): 64-71.