一种物体比辐射率的新型四次测量法及增温补偿
张仁华, 米素娟, 田静, 李召良, 苏红波, 郝贵斌, 姜勃, 刘素华. 一种物体比辐射率的新型四次测量法及增温补偿[J]. 红外与毫米波学报, 2017, 36(6): 783.
ZHANG Ren-Hua, MI Su-Juan, TIAN Jing, LI Zhao-Liang, SU Hong-Bo, HAO Gui-Bin, JIANG Bo, LIU Su-Hua. A new method on estimating object emissivity by using four times measuring and principle of temperature compensation[J]. Journal of Infrared and Millimeter Waves, 2017, 36(6): 783.
[1] Becker F, Li Z L. Surface temperature and emissivity at various scale: definition, measurement and related [J]. Remote Sensing Review, 1995, 12:225-253.
[2] Becker F. The impact of spectral emissivity on the measurement of land surface temperature from a satellite [J]. Int. J. Remote Sens., 1987, 8(10):1509-1522.
[3] Li Z L, Becker F. Feasibility of land surface temperature and emissivity determination from AVHRR data[J]. Remote Sens. Enviro. , 1993, 43:67-85.
[4] ZHANG Ren-Hua. Quantitative thermal infrared remote sensing and ground experimental basis [M]. Science Press(张仁华. 定量热红外遥感及地面实验基础,科学出版社), 2009.
[5] Price J C. Land surface temperature measurements from the split window channels of the NOAA7/ AVHRR [J]. Geophys. Res., 1984, 89:7231-7237.
[6] Becker F, Li Z L. Temperature -independent spectral indices in thermal infrared bands[J].Remote Sens. Enriron.,1990,32:17-33.
[7] Watson K. Spectral ratio method for measuring emissivity[J]. Remote Sens Environ.,1992, 42:113-116.
[8] Kealy P S, Hook S J. Separating temperature and emissivity in thermal multispectral scanner data: Implications for recovering land surface temperatures[J]. IEEE Transaction on Geosciences and Remote Sensing,1993, 31(6):1155-1164.
[9] Wan Z, Dozier J. A generalized split-window algorithm for retrieving land surface temperature from space [J]. IEEE Transactions on Geosciences and Remote Sensing, 1996 ,34:892-905.
[10] Wan Z, Li Z L. A physics-based algorithm for retrieving land surface emissivity and temperature from EOS/MODIS data [J]. IEEE Transaction on Geosciences and Remote Sensing , 1997,35(4):980-996.
[11] Gillespie A R, Rokugawa S, Matsunaga T. et al. A temperature and emissivity saparation algorithm for Advanced Spaceborne Thermal Emission and Reflectance Radiometer(ASTER) images [J]. IEEE Transactions on Geoscience and Remote Sensing, 1998,36:1113-1126.
[12] Li Z L, Becker F, Stoll M.P. Evaluation of six methods for extracting relative emissivity spectra from thermal infrared images [J]. Remote Sensing of Environment, 1999, 69:197-214.
[13] Chen H Y, Chen C H. Determining the emissivity and temperature of building materials by infrared thermometer[J]. Construction and Building Materials , 2016, 126:130-137.
[14] Sakata K, Watanabe Y, Okada J T, et al. FT-IR emissivity measurements of Nb melt using an electrostatic levitation furnace[J]. J. Chem. Thermodynamics, 2015, 91:116-120.
[15] Mazikowski A, Chrzanowski K. Non-contact multiband method for emissivity measurement[J]. Infrared Physics & Technology, 2003,44: 91-99.
[16] Korb A R, Dybwad P, Wadsworth W , et al. Portable Fourier transform infrared spectroradiometer for field measurements of radiance and emissivity[J]. Applied Optics, 1996, 35(10):1679.
[17] Sutton O G. Micrometeorology[M].MeGraw-Hill Press. London UK.徐尔灏,吴和赓译.
[18] Cuenca J, Sobrino J. Experimental measurements for studying angular and spectral variation of thermal infrared emissivity[J]. Applied Optics,2004 ,43( 23),10:4598-4602.
[19] Leire del Campo, Pérez-Sáez A, Esquisabel X, et al. New experimental device for infrared spectral directional emissivity measurements in a controlled environment[J].Review of Scientific Instruments, 2006, 77(11):367.
[20] Riou O, Guiheneuf V, Delaleux F, et al. Accurate methods for single-band apparent emissivity measurement of opaque materials[J]. Measurement, 2016, 89:239-251.
[22] SHEN Bin,YAN Guang-Jian, FENG Xue, et al. A comparason study on the field measurement methods of thermal infrared spectral emissivity[J]. Journal of Beijing Normal University(Natural Science)(沈斌,阎广建,冯雪,等. 热红外比辐射率光谱野外测量方法的对比研究. 北京师范大学学报(自然科学版)) 2007,43(3):264-268.
[23] ZHANG Ren-Hua.A preliminary study on non-closed measurements of emissivity[J]. Science Bulletin,(张仁华﹒比辐射率的非封闭测定法初步探讨.科学通报)1981,26(23):1444-1447.
[24] Chen J M, Zhang R H. Studies on themeasurements of crop emissivity and sky temperature[J].Agricultural and Forest Meteorology,1989,49:23-34.
[25] Zhang R H. Emissivity measurements for long distance using CO2 laser[J]. Science Bulletin,1985, 23:1814-1818.
[26] Zhang R H. A proposed approach to determine the emissivities of territorial surface from airborne and spaceborne[J]. INT. J. Remote Sensing,1989, 9(3):591-595.
[27] Buettner K J E, Kern C D. The determination of infrared emissivities of terrestrial surfaces[J]. Journal of Geophysical research,1965,70(6):1329-1337.
[28] ZHANG Ren-Hua,TIAN Guo-Liang. Determination of emissivity of objects as normal temperature[J].Science Bulletin (张仁华,田国良.常温比辐射率测量,科学通报) 1981,26(5):297-300.
[29] ZHANG Ren-Hua.Experimental remote sensing model and ground foundation[M]. Science Press (张仁华,实验遥感模型及地面基础,科学出版社),1996.
[30] Rubio E, Caselles V, Coll C, et al. Thermal-infrared emissivities of natural surfaces: improvements on the experimental set-up and new measurements[J]. International J. of Remote Sensing, 2003,24(24): 5379-5390.
[31] Rubio E , Caselles V , Badenasc. Emissivity measurements of several soils and vegetation types in the 8-14 pm waveband: analysis of two field methods[J]. Remote Sensing of Environment, 1997, 59, 490-521.
[32] Baltes H P. On the validity of Kirchoff’s law of heat radiation for a body in a nonequilibrium environment[J]. Progress in Opitics, 1976, 8:269-304.
[33] Badenas C. Comments on Kirchoff's law in thermal infrared remote sensing[J]. International Journal of Remote Sensing, 1997, 18(1): 229-231.
[34] Zhang R H, Li Z L, Sun X M, et al. On the applicability of Kirchoff’s law and the principle of heat balance in thermal infrared remote sensing :A non-isothermal system[J].Science in China Ser. D Earth Science,2005,48(1): 53-64.
[35] ZHANG Ren-Hua,MI Su-Juan,TIAN Jing, et al. A type of real-time spectral emissivity measurement apparatus using active-passive-diffusion thermal source and its instruction. [P](张仁华,米素娟,田静,等.一种主被动漫射式实时光谱比辐射率测定仪及其使用方法:中国), CN104458001A. 2015-03-25.
[36] ZHANG Ren-Hua,TIAN Jing,SU Hong-Bo,et al. A type of 102F Fourier Spectrometer adapter and its instruction. [P](张仁华,田静,苏红波,等.一种102F傅里叶光谱仪的适配器及使用方法:中国),ZL201210363506.X. 2013-01-16.
张仁华, 米素娟, 田静, 李召良, 苏红波, 郝贵斌, 姜勃, 刘素华. 一种物体比辐射率的新型四次测量法及增温补偿[J]. 红外与毫米波学报, 2017, 36(6): 783. ZHANG Ren-Hua, MI Su-Juan, TIAN Jing, LI Zhao-Liang, SU Hong-Bo, HAO Gui-Bin, JIANG Bo, LIU Su-Hua. A new method on estimating object emissivity by using four times measuring and principle of temperature compensation[J]. Journal of Infrared and Millimeter Waves, 2017, 36(6): 783.