海雾的遥感光学辐射特性
[1] 中国气象局. 地面气象观测规范[M]. 北京: 气象出版社, 2003. 23
China Meteorological Administration. Ground Weather Observation Criterion[M]. Beijing: China Meteorological Press, 2003. 23
[2] 王彬华. 海雾[M]. 北京: 海洋出版社, 1983. 1~4
Wang Binhua. Sea Fog[M]. Beijing: China Ocean Press, 1983. 1~4
[3] . A new algorithm for sea fog/stratus detection using GMS-5 IR data[J]. Advances in Atmospheric Sciences, 2003, 20(6): 899-913.
[4] . A satellite-based climatology of fog and low-level stratus in Germany and adjacent areas[J]. Atmospheric Research, 2002, 64(1): 3-18.
[5] . Radiative properties of terrestrial clouds at visible and infrared thermal window wavelengths[J]. Quarterly J. Royal Meteorological Society, 1973, 99: 346-369.
[6] . Detection of fog at night using advanced very high resolution radiometer (AVHRR) imagery[J]. Meteorological Magazine, 1984, 113: 266-271.
[7] . A case study of the detection of fog at night using channels 3 and 4 on the advanced very high resolution radiometer (AVHRR)[J]. Meteorological Magazine, 1986, 115: 285-290.
[8] . A method for detection of fog using AVHRR imagery of NOAA satellites suitable for operational purposes (in German)[J]. Meteorologische Rundschau, 1991, 43(2): 169-178.
[9] . Stratus and fog products using GOES-8-9 3.9-μm data[J]. Weather and Forecasting, 1997, 12(3): 664-677.
[10] . Experiments with a straightforward model for the spatial forecast of fog/low stratus clearance based on multi-source data[J]. Meteorological Applications, 1998, 5(3): 205-216.
[11] . A multiple-case analysis of nocturnal radiation-fog development in the central valley of California utilizing the GOES nighttime fog product[J]. J. Applied Meteorology, 2004, 43(2): 297-311.
[12] . . Derivation and applications of near-infrared cloud reflectances from GOES-8 and GOES-9[J]. J. Applied Meteorology, 1998, 37(8): 819-831.
[13] . 用GMS-5气象卫星资料遥感监测白天雾的研究[J]. 南京气象学院学报, 2001, 24(3): 343-349.
. . Study on detection of daytime fog using GMS-5 weather satellite data[J]. J. Nanjing Institute of Meteorology, 2001, 24(3): 343-349.
[14] . NOAA卫星云雾自动检测和修复方法[J]. 自然灾害学报, 2003, 12(3): 41-47.
. . Automatic detection and rehabilitation of cloud/fog pollution in NOAA/AVHRR imagery[J]. J. Natural Disasters, 2003, 12(3): 41-47.
[15] . 基于气象卫星分形纹理的云雾分离研究[J]. 自然灾害学报, 2003, 12(2): 133-139.
. Recognition of fog and cloud in meteorological satellite image based on fractal texture structure analysis[J]. J. Natural Disasters, 2003, 12(2): 133-139.
[16] . 雾的气象卫星遥感光谱特征[J]. 南京气象学院学报, 2004, 27(3): 289-301.
. Meteorological satellite remote-sensing spectral characteristics of fog[J]. J. Nanjing Institute of Meteorology, 2004, 27(3): 289-301.
[17] . . A feasibility study of daytime fog and low stratus detection with TERRA/AQUA-MODIS over land[J]. Meteorological Applications, 2006, 13(2): 111-125.
[18] . 基于MODIS卫星数据的平流雾检测研究[J]. 武汉大学学报(信息科学版), 2005, 30(2): 143-145.
. . Fog detection based on EOS MODIS data[J]. Geomatics and Information Science of Wuhan University, 2005, 30(2): 143-145.
[19] . 基于MODIS多通道资料的白天雾监测[J]. 气象科技, 2006, 34(2): 188-193.
. . Detection of daytime fog using MODIS multispectral data[J]. Meteorological Science and Technology, 2006, 34(2): 188-193.
[20] . Tools for atmospheric radiative transfer: Streamer and FluxNet[J]. Computers and Geosciences, 1998, 24(5): 443-451.
[21] . . Numerically stable algorithm for discrete-ordinate-method radiative transfer in multiple scattering and emitting layered media[J]. Appl. Opt., 1988, 27(12): 2502-2509.
[22] . An accurate parameterization of the radiative properties of water clouds suitable for use in climate models[J]. J. Climate, 1993, 6(4): 728-742.
[23] . Parameterization of the radiative properties of cirrus clouds[J]. J. Atmospheric Sciences, 1993, 50(13): 2008-2025.
[24] . δ-fit: A fast and accurate treatment of particle scattering phase functions with weighted singular-value decomposition least-squares fitting[J]. J. Quantitative Spectroscopy and Radiative Transfer, 2000, 65(4): 681-690.
[25] 陈渭民. 卫星气象学[M]. 北京: 气象出版社, 2003. 123~133
Chen Weimin. Satellite Meteorology[M]. Beijing: China Meteorological Press, 2003. 123~133
[26] 袁江涛,杨立,谢骏 等. 基于Mie理论的水雾粒子多光谱消光特性研究[J]. 光学技术, 2007, 32(3): 459~461
Yuan Jiangtao, Yang Li, Xie Jun et al.. Study on extinction properties of water fog particles in multi-spectrum based on Mie theory[J]. Optical Technique, 2007, 32(3): 459~461
[27] 陈道群,黄启俊,易凡 等. 基于Mie散射的卷云光学特性[J]. 光学与光电技术, 2008, 6(1): 65~70
[28] 项建胜,何俊华. Mie光散射理论的数值计算方法[J]. 应用光学, 2007, 28(3): 363~366
[29] Liou K N. An Introduction to Atmospheric Radiation[M]. 2nd ed., San Diego: Academic Press, 2002. 96~97
郝增周, 潘德炉, 龚芳, 朱乾坤. 海雾的遥感光学辐射特性[J]. 光学学报, 2008, 28(12): 2420. Hao Zengzhou, Pan Delu, Gong Fang, Zhu Qiankun. Optical Radiance Characteristics of Sea Fog Based on Remote Sensing[J]. Acta Optica Sinica, 2008, 28(12): 2420.