[1] Chu Tongjin, Cao Henyong, Wang Juncheng et al.. Chinese Marine Data Buoy[M]. Beijing: Ocean Press, 2001. 1~319
[2] Cao W X,Yang Y Z, Ke T C et al.. Optical systems for applications in ocean color remote sensing and interdisciplinary study[C]. Proc. SPIE, 2003, 4892: 222~232
[3] Chen Qinglian, Li Tongji, Ren Hongqi. The radiometric calibration and validation of HY-1/COCTS[J]. Ocean Technology, 2003, 22(1): 2~9
[4] Mueller J L, Fargion G S, McClain C R. Ocean Optics Protocols for Satellite Ocean Color Sensor Validation[R]. NASA/TM-2003-211621, 2003
[5] Dickey T D, Jones B H. A decade of interdisciplinary process studies[C]. Proc. SPIE, 1997, 2963: 254~259
[7] Zhao Dongzi. The Study of Monitoring and Evaluation of the Disaster of Red Tide in Bohai Sea[M]. Beijing: Ocean Press, 2000. 144~150
[8] Dickey T D, Siegel D A. U.S. JGOFS Planning Report: Bio-optics in U.S. JGOFS[R]. U.S. JGOFS Planning and Coordination Office, Woods Hole Oceanographic Institution, 1993, 180
[9] Dickey T D, Marra J, Granata T et al.. Concurrent high resolution bio-optical and physical time series observations in the Sargasso Sea during the spring of 1987[J]. J. Geophys. Res., 1991, 96: 8643~8663
[10] Antoine D, Chami M, Claustre H et al.. BOUSSOLE : a Joint CNRS-INSU, ESA, CNES and NASA Ocean Color Calibration and Validation Activity[R]. NASA/TM-2006-214147, 2006
[11] Pinkerton M H, Lavender S J, Aiken J. Validation of SeaWiFS ocean color satellite data using a moored databuoy[J]. J. Geophys. Res., 2003, 108(C5): 3133, 1~9
[12] Pinkerton M H, Aiken J. Calibration and validation of remotely sensed observations of ocean color from a moored data buoy[J]. J. Atmosperic and Oceanic Thechnology, 1999, 16: 915~923
[13] Ishizaka J, Asanuma I, Ebuchi N et al.. Time series of physical and optical parameters off Shimane, Japan, during fall of 1993: First observation by moored optical buoy system for ADEOS data verification[J]. J. Oceanogr., 1997, 53: 245~258
[14] Kishino M, Ishizaka J, Saitoh S et al.. Verification plan of ocean color and temperature scanner atmospheric correction and phytoplankton pigment by moored optical buoy system[J]. J. Geophys. Res., 1997, 102(D14): 17197~17207
[15] Hooker S B, Lazin G, Zibordi G et al.. An evaluation of above and in-water methods for determining water-leaving radiances[J]. J. Atmospheric and Oceanic Technology, 2002, 19: 486~513
[16] Cao Wenxi, Guo Yongfei, Yang Yuezhong et al.. A multichannel underwater spectroradiometer[J]. High Technology Letters, 2002, 1: 96~101
[17] Li Cai, Ke Tiancheng, Cao Wenxi et al.. Design of a moored underwater multi-channel radiometer[J]. Optical Technique, 2004, 6: 665~668
[19] Cao Wenxi, Wu Tingfang, Yang Yuezhong et al.. Monte Carlo simulations of the optical buoy′s shading effects[J]. High Technology Letter, 2003, 13(3): 80~84
[20] Wang Xaingnan. The technique of the underwater spectrum radiation measurement[J]. Ocean Technology, 2003, 22(2): 12~18
[21] Li Tongji, Tang Junwu, Chen Qinglian et al.. A method for measuring water-leaving radiance using photometer[J]. J. Tropical Oceanography, 2001, 20(4): 56~60
[22] Xu Zongming, Yu Binxi, Jin Xifeng et al.. Radiometric system for measuring spectrum below ocean surface and the design of its controlling program[J]. J. Test and Measurement Technology, 2004, 18(4): 283~287
[24] Thuillier G, Herse M, Labs D et al.. The solar spectral irradiance from 200 to 2400 nm as measured by the SOLSPEC spectrometer from the ATLAS and EURECA missions[J]. Solar Phys., 2003, 214: 1~22
