[1] Ryu J H, Han H J, Cho S,et al. Overview of geostationary ocean color imager (GOCI) and GOCI data processing system (GDPS)[J]. Ocean Sci. J., 2012, 47(3): 223-233.

[2] Faure F, Coste P, Kang G. The GOCI instrument on COMS mission-The first geostationary ocean color imager[C].Proceedings of the International Conference on Space Optics, 2008: 14-17.

[3] Fu Qiaoyan, Min Xiangjun, Li Xingchao,et al. In flight absolute calibration of the CBERS202 CCD sensor at the Dunhuang test site[J]. Journal of Remote Sensing, 2006, 10(4): 433-439(in Chinese).

[4] Gong Hui, Tian GuoLiang, Yu Tao,et al. Radiometric calibration and validation of CCD cameras on HJ-1 satellite[J]. Remote Sensing Technology and Application, 2011, 2(5): 682-688(in Chinese).

[5] Thome K J. Absolute radiometric calibration of Landsat 7 ETM+ using the reflectance-based method[J].Remote Sen. Environ., 2001, 78(1): 27-38.

[6] Santer R, Gu X F, Guyot G,et al. SPOT calibration at the La Crau test site[J]. Remote Sen. Environ., 1992, 41(2) : 227-237.

[7] Metzler M D, Malila W A. Characterization and comparison of Landsat-4 and Landsat-5 Thematic Mapper data[J].Photogramm. Eng. Rem. S., 1985, 51(9): 1315-1330.

[8] Price J C. Calibration comparison for the Landsat 4 and 5 multi-spectral scanners and thematic mappers[J].Appl. Opt., 1989, 28(3): 465-471.

[9] Barker J L, Dolan S K, Sabelhaus P A,et al. Landsat-7 mission and early results[C]//Remote Sensing International Society for Optics and Photonics, 1999: 299-311.

[10] Schroeder M, Poutier L, Müller R,et al. Inter-calibration of optical satellites-a case study with MOMS and SPOT[J]. Aerospace Science Technology, 2001, 5(4): 305-315

[11] Tian Qingjiu, Zheng Lanfang, Tong Qingxi. Comparison and analysis for in-flight calibration of SPOT based on methods of test site and on-boarding calibration[J].Journal of Remote Sensing, 1998, 2(1): 13-18(in Chinese).

[12] Chen R Y, Cao C Y. Cross-calibration of HIRS aboard NOAA satellites using IASI[C].Proc. SPIE, 2011: 81531B-81531B-7.

[13] Wang C, Zhang X, Li J,et al. Cross-calibration of high energetic particles data—A case study between FY-3B and NOAA-17[J]. Sci. China Technol. Sci., 2013, 5(11): 2668-2674.

[14] Li Xiaoying, Gu Xingfa, Min Xiangjun,et al. Radiometric cross-calibration of the CBERS-02 CCD camera with the TERRA MODIS[J]. Science in China Ser. E Information Sciences, 2005, 35(SI): 41-58(in Chinese).

[15] Xu Lei, Ma Lingling, Hu Jian,et al. Cross-calibration of HJ-1B/CCD1 against Terra/ MODIS[J]. Remote Sensing Information, 2011(2): 26-31(in Chinese).

[16] Zhou Guanhua, Jiang He, Zhao Huijie,et al. Imaging spectrometry radiometric cross-calibration based on precise spectral response matching[J]. Spectroscopy and Spectral Analysis, 2012, 32(12): 3416-3421(in Chinese).

[17] Lee K S, Park S M, Kim S H,et al. Radiometric characteristics of geostationary Ocean Color Imager (GOCI) for land applications[J]. Korean Journal of Remote Sensing, 2012, 28(3): 277-285.

[18] Uudus B, Park K A, Kim K R,et al. Diurnal variation of NDVI from an unprecedented high-resolution geostationary ocean colour satellite[J]. Remote Sens. Lett., 2013, 4(7): 639-647.

[19] Park W, Won J S. Radiometric cross-calibration of polar orbital sensors using Geostationary Ocean Color Imager (GOCI)[C]. In Sentinel-2 Preparatory Symposium, 2012: 23-27.

[20] Hu C M, Muller-Karger F E, Andrefouet S,et al. Atmospheric correction and cross-calibration of LANDSAT-7/ETM+ imagery over aquatic environments: A multiplatform approach using SeaWiFS/ MODIS[J]. Remote Sens. Environ., 2001, 78(1): 99-107.

[21] Zhang Yuhuan, Li Zhengqiang, Hou Weizhen,et al. Retrieval of haze aerosol optical depth based on high spatial resolution CCD of HJ-1[J]. Journal of Remote Sensing, 2013, 17(4): 959-969(in Chinese).

[22] Holben B N, Tanre D, Smirnov A,et al. An emerging ground-based aerosol climatology: aerosol optical depth from AERONET[J]. J. Geophys. Res., 2001, 106: 12067-12097.

[23] Angstrom A. On the atmospheric transmission of sun radiation and on dust in the air[J].Geografiska Annualer, 1929, 11: 156-165.