光学厚度预报因子对风云四号卫星扫描辐射计红外通道快速正演精度的影响分析
马刚, 马新园, 白文广, 刘辉, 张鹏, 覃丹宇. 光学厚度预报因子对风云四号卫星扫描辐射计红外通道快速正演精度的影响分析[J]. 红外与毫米波学报, 2018, 37(3): 351.
MA Gang, MA Xin-Yuan, BAI Wen-Guang, LIU Hui, ZHANG Peng, QIN Dan-Yu. The influence of optical depth predictors on the rapid forward accuracy of infrared channels of FY-4 AGRI[J]. Journal of Infrared and Millimeter Waves, 2018, 37(3): 351.
[1] Rizzi R, Matricardi M. The use of TOVS clear radiances for numerical weather prediction using an updated forward model[J]. Quarterly Journal of the Royal Meteorological Society, 2010, 124(548):1293-1312.
[2] Mcmillin L M, Fleming H E. Atmospheric transmittance of an absorbing gas: a computationally fast and accurate transmittance model for absorbing gases with constant mixing ratios in inhomogeneous atmospheres.[J]. Applied optics, 1976, 15(2):358.
[3] Mcmillin L M, Crone L J, Kleespies T J. Atmospheric transmittance of an absorbing gas. 5. Improvements to the OPTRAN approach.[J]. Applied Optics, 1995, 34(36):8396.
[4] Eyre J R, Woolf H M. Transmittance of atmospheric gases in the microwave region: a fast model.[J]. Applied Optics, 1988, 27(15):3244-9.
[5] Eyre J R. A fast radiative transfer model for satellite sounding systems[C]// ECMWF Research Dept. Tech. Memo 176, ECMWF. 1991.
[6] Matricardi M, Chevallier F, Kelly G, et al. An improved general fast radiative transfer model for the assimilation of radiance observations[J]. Quarterly Journal of the Royal Meteorological Society, 2004, 130(596):153-173.
[7] Saunders R, Matricardi M, Brunel P. An improved fast radiative transfer model for assimilation of satellite radiance observations[J]. Quarterly Journal of the Royal Meteorological Society, 2015, 125(556):1407-1425.
[9] Chen Y, Han Y, Liu Q, et al. Community Radiative Transfer Model for Stratospheric Sounding Unit[J]. Journal of Atmospheric & Oceanic Technology, 2011, 28(28):767-778.
[10] Chen Y, Han Y, Weng F. Comparison of two transmittance algorithms in the community radiative transfer model: Application to AVHRR[J]. Journal of Geophysical Research Atmospheres, 2012, 117(D6):561-8.
[11] Kratz D P, Mlynczak M G, Mertens C J, et al. An inter-comparison of far-infrared line-by-line radiative transfer models[J]. Journal of Quantitative Spectroscopy & Radiative Transfer, 2005, 90(3–4):323-341.
[12] R9REP2008 RTTOV-9 science and validation report available at:http://research.metoffice.gov.uk/research/interproj/nwpsaf/rtm/rttov9_files/rttov9_svr.pdf Saunders
[13] Han Y, Delst P V, Liu Q, et al. User's Guide to the JCSDA Community Radiative Transfer Model (Beta Version)[J]. NIST TN-1442, 2005.
[14] Li Xiaokun, Wang Ganjin, Chen Guilin, FY-4 imager: visible channel star sensing[J]. Science Technology and Engineering,(李晓坤、王淦全、陈桂林. 风云四号气象卫星扫描成像仪-可见光通道星敏感.科学技术与工程), 2007,7(6):993-996.
[15] Qi C. A Sampling Technique of Typical Atmospheric Profiles Database in China[J]. Journal of Applied Meteorological Science,(漆成莉, 刘辉, 马刚,等. 中国区域典型大气廓线样本库的一种选择方法, 应用气象学报), 2010, 21(1):70-75.
[16] Edwards D P. GENLN2: A general line-by-line atmospheric transmittance and radiance model. Version 3.0: Description and users guide[C]. NCAR Technical Note, NCAR/TN-367+STR, Boulder, CO.1992.
马刚, 马新园, 白文广, 刘辉, 张鹏, 覃丹宇. 光学厚度预报因子对风云四号卫星扫描辐射计红外通道快速正演精度的影响分析[J]. 红外与毫米波学报, 2018, 37(3): 351. MA Gang, MA Xin-Yuan, BAI Wen-Guang, LIU Hui, ZHANG Peng, QIN Dan-Yu. The influence of optical depth predictors on the rapid forward accuracy of infrared channels of FY-4 AGRI[J]. Journal of Infrared and Millimeter Waves, 2018, 37(3): 351.
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