The concept of effective emissivity of nonisothermal mixed pixel and its test 被引量：17

The concept of effective emissivity of nonisothermal mixed pixel and its test

导出

摘要 Based on two preconditions, the local thermal equilibrium is satisfied and emissivities donot change with temperature, the concept of component effective emissivity of nonisothermal mixed pixel has been put forward and then the radiant directionality model of nonisothermal mixed pixel constructed from it. Our study shows that the component effective emissivity is associated with geometric structure, optical properties of target, and viewing angle, but does not depend on the component temepratures. The component temperatures can only change the ratio of component radiance to the total radiance of the mixed-pixel. The total effective emissivity of this pixel is the complement of its directional-hemisphere reflectance. After the simulation of component effective emissivity of the discrete cones and continuous vegetation canopy (winter wheat) by the Monte Carlo method, our model of radiant directionality of nonisothermal mixed pixel have been proved by lab and field measurements. Based on two preconditions, the local thermal equilibrium is satisfied and emissivities do not change with temperature, the concept of component effective emissivity of nonisothermal mixed pixel has been put forward and then the radiant directionality model of nonisothermal mixed pixel constructed from it. Our study shows that the component effective emissivity is associated with geometric structure, optical properties of target, and viewing angle, but does not depend on the component temepratures. The component temperatures can only change the ratio of component radiance to the total radiance of the mixed-pixel. The total effective emissivity of this pixel is the complement of its directional-hemisphere reflectance. After the simulation of component effective emissivity of the discrete cones and continuous vegetation canopy (winter wheat) by the Monte Carlo method, our model of radiant directionality of nonisothermal mixed pixel have been proved by lab and field measurements.

作者 CHEN Liangfu ZHUANG Jiali XU Xiru NIU Zheng ZHANG Renhua XIANG Yueqing

机构地区 Institute of RS and CIS Institute of Remote Sensing Institute of Geography

出处《Chinese Science Bulletin》 SCIE EI CAS 2000年第9期788-795,共8页

关键词 NONISOTHERMAL MIXED PIXEL component EFFECTIVE EMISSIVITY multiple scattering. nonisothermal mixed pixel component effective emissivity multiple scattering

分类号 TP79 [自动化与计算机技术—检测技术与自动化装置]

引文网络
相关文献

参考文献8

1LI Xiaowen and WANG Jindi Research Center for Remote Sensing and GIS, Beijing Normal Unirersity, Keying 100875, China ,Center for Remote Sensing, Boston Univ. , MA02215, USA.The definition of effective emissivity of land surface at the scale of remote sensing pixels[J].Chinese Science Bulletin,1999,44(23):2154-2158. 被引量：14
2Barton J J.Talashima T An AVHRR investigation of surface emissivity near lake Eyre, Australia. Remote Sensing of Environment . 1986 被引量：1
3Labed J,Stoll M P.Angular variation of land surfacespectral emissivity in the thermal infrared-Laboratory in-vestigations on bare soils. International Journal of RemoteSensing . 1991 被引量：1
4Dozier, J,Warren, S. G.Effect of viewing angle on the infrared brightness temperature of snow. Water Resources . 1982 被引量：1
5Kimes, D. S,Smith, J. A,Link, L. E.Thermal IR exitance model of a plant canopy. Applied Optics . 1981 被引量：1
6Norman, J,Becker, F.Terminology in thermal infrared remote sensing of natural surface. Agriculture and Frest Meteorology . 1995 被引量：1
7Wan, Z,Dozier, J.A generalized split-window algorithm for retrieving land-surface temperature from space. IEEE Trans on Geosci and Remote Sens . 1996 被引量：1
8Becker, F,Li, Z.Surface temperature and emissivity at various scales: definition, measurement and related problem. Remote Sensing Reviews . 1995 被引量：1

二级参考文献10

1Li X W,Strahler A H,Woodcock C E.A hybrid geometric optical-radiative transfer approach for modeling albedo and directional reflectance of discontinuous canopies. IEEE Transactions on Geoscience and Remote Sensing . 1995 被引量：1
2Li Xiaowen,A. H. Strahler,M. A. Friedl.A conceptual model for effective directional emissivity from non-isothermal surface. IEEE Trans, on Geoscience and Remote Sensing . 1999 被引量：1
3Dozier,J.A method for satellite identification of surface temperature fields of subpixel resolution, Remote Sens. Environment . 1981 被引量：1
4Becker,F.,and Li Z.L.Measurement of Land Surface Temperature and Emissivity from Space:Methods, Results and Related Problems. The 6th International Colloquium-Physical Measurements and Signatures in Remote Sensing,Val d‘Isere ( . January17-211995 被引量：1
5J. Dozier,S. G. Warren.Effect of viewing angle on the infrared brightness temperature of snow. Water Resources Research . 1982 被引量：1
6Wan, Z.,Dozier, J.A generalized split-window algorithm for retrieving land-surface temperature from space. IEEE Transactions on Geoscience Electronics . 1996 被引量：1
7Norman, J,Becker, F.Terminology in thermal infrared remote sensing of natural surfaces. Remote Sensing Reviews . 1995 被引量：1
8Kimes, D. S,Smith, J. A,Link, L. E.Thermal IR exitance model of a plant canopy. App. Optics . 1981 被引量：1
9Balick , L,Scoggins, R,Link, L.Inclusion of a simple vegetation layer in terrain temperature models for TIR signature prediction. IEEE Tram. Geosci. Remote Sens . 1981 被引量：1
10Norman, J,Becker, F.Terminology in thermal infrared remote sensing of natural surfaces. Agr. and For. Meteo . 1995 被引量：1

共引文献13

1刘强,田国良,柳钦火,肖青.Study on geometric correction of airborne multiangular imagery[J].Science China Earth Sciences,2002,45(12):1075-1086. 被引量：1
2徐冠华.Basic research in the field of thermal infrared remote sensing[J].Science China(Technological Sciences),2000,43(S1):1-8.
3栾海军,田庆久,余涛,胡新礼,黄彦,刘李,杜灵通,魏曦.定量遥感升尺度转换研究综述[J].地球科学进展,2013,28(6):657-664. 被引量：21
4栾海军,田庆久,余涛,胡新礼,黄彦,杜灵通,赵利民,魏曦,韩杰,张周威,李少鹏.基于分形理论的NDVI连续空间尺度转换模型研究[J].光谱学与光谱分析,2013,33(7):1857-1862. 被引量：19
5李小文,王祎婷.定量遥感尺度效应刍议[J].地理学报,2013,68(9):1163-1169. 被引量：92
6李德仁,刘良明,胡晓沁.1996-2000年中国摄影测量与遥感进展[J].测绘学报,2001,30(2):117-126. 被引量：12
7陈良富,柳钦火.连续植被的热辐射方向性[J].遥感学报,2001,5(6):407-415. 被引量：3
8徐希孺,徐希孺,范闻捷,陈良富.开放的复杂目标热辐射特性的矩阵表达式[J].中国科学（D辑）,2001,31(12):1046-1051. 被引量：6
9孙灏,陈云浩,占文凤,王萌杰,马伟.一种近似用于高发射率城市地表热红外等效发射率的方向性变异核驱动模型及其不确定性分析[J].红外与毫米波学报,2015,34(1):66-73. 被引量：4
10栾海军,田庆久,章欣欣,聂芹,朱晓玲.定量遥感地表参数尺度转换研究趋势探讨[J].地球科学进展,2018,33(5):483-492. 被引量：9

同被引文献72

1徐冠华.论热红外遥感中的基础研究[J].中国科学（E辑）,2000,30(z1):1-5. 被引量：18
2李召良,M.P.Stoll,张仁华,贾立,苏中波.利用ATSR数据分解土壤和植被温度的研究[J].中国科学（E辑）,2000,30(z1):27-38. 被引量：20
3张仁华,孙晓敏,李召良,M.P. Stoll,苏红波,唐新斋.地物热辐射方向性影响主因子的揭示──提高辐射温度方向性观测精度的新途径及数据剖析[J].中国科学（E辑）,2000,30(z1):39-44. 被引量：12
4王锦地,李小文,孙晓敏,刘强.用热辐射方向性模型反演非同温像元组分温度[J].中国科学（E辑）,2000,30(z1):54-60. 被引量：15
5刘诚,李亚军,赵长海,阎华,赵洪淼.气象卫星亚像元火点面积和亮温估算方法[J].应用气象学报,2004,15(3):273-280. 被引量：48
6ZHANG Renhua SUN Xiaomin WANG Weimin XU Jinping ZHU Zhilin TIAN Jing.An operational two-layer remote sensing model to estimate surface flux in regional scale: Physical background[J].Science China Earth Sciences,2005,48(z1):225-244. 被引量：16
7阎广建,蒋玲梅,王锦地,陈良富,李小文.Thermal bidirectional gap probability model for row crop canopies and validation[J].Science China Earth Sciences,2003,46(12):1241-1249. 被引量：2
8徐希孺,范闻捷,陈艮富.Matrix expression of thermal radiative characteristics for an open complex[J].Science China Earth Sciences,2002,45(7):654-661. 被引量：6
9CHEN Liangfu,LIU Qinhuo,FAN Wenjie,LI Xiaowen,XIAO Qing,YAN Guangjian,TIAN Guoliang.A bi-directional gap model for simulating the directional thermal radiance of row crops[J].Science China Earth Sciences,2002,45(12):1087-1098. 被引量：12
10张仁华,苏红波,李召良,孙晓敏,唐新斋,F.Becker.The potential information in the temperature difference between shadow and sunlit of surfaces and a new way of retrieving the soil moisture[J].Science China Earth Sciences,2001,44(2):112-123. 被引量：11

引证文献17

1利用遗传算法优化神经网络实现混合像元组分参数的反演[J].遥感学报,2000,4(z1):31-37. 被引量：3
2陈良富,庄家礼,徐希孺,张仁华,苏红波.非同温离散体热辐射方向性模拟与验证[J].遥感学报,2000,4(z1):48-52. 被引量：1
3徐希孺,范闻捷,陈艮富.Matrix expression of thermal radiative characteristics for an open complex[J].Science China Earth Sciences,2002,45(7):654-661. 被引量：6
4CHEN Liangfu,LIU Qinhuo,FAN Wenjie,LI Xiaowen,XIAO Qing,YAN Guangjian,TIAN Guoliang.A bi-directional gap model for simulating the directional thermal radiance of row crops[J].Science China Earth Sciences,2002,45(12):1087-1098. 被引量：12
5徐希孺,陈良富,庄家礼.Genetic inverse algorithm for retrieval of component temperature of mixed pixel by multi-angle thermal infrared remote sensing data[J].Science China Earth Sciences,2001,44(4):363-372. 被引量：7
6高浓度工业污水处理[J].矿山资源开发利用与环境保护（科技与信息）,2001(6):15-15.
7王旻燕,吕达仁.GMS 5资料反演地表温度的一个修正算法[J].地球物理学报,2005,48(5):1034-1044. 被引量：3
8TANG ShiHao,LI XiaoWen,WANG JinDi,ZHU QiJiang,ZHANG LiHua.An improved TES algorithm based on the corrected ALPHA difference spectrum[J].Science China Earth Sciences,2007,50(2):274-282.
9CHENG Jie,LIU QinHuo,LI XiaoWen,XIAO Qing,LIU Qiang,DU YongMing.Correlation-based temperature and emissivity separation algorithm[J].Science China Earth Sciences,2008,51(3):357-369. 被引量：3
10陈良富,庄家礼,柳钦火,徐希孺,田国良.Study on the law of radiant directionality of row crops[J].Science China(Technological Sciences),2000,43(S1):70-82. 被引量：3

二级引证文献67

1CHEN Zeyu,LIU Renqiang,CHEN Hongbin,CHEN Wen,LU Daren,XU Jiyao,HU Xiong.Advances in the Studies of the Middle and Upper Atmosphere in 2004-2006[J].空间科学学报,2006,26(z1):61-70. 被引量：6
2FAN Wenjie1 & XU Xiru1,2 1. Institute of Remote Sensing and Geographical Information System, Peking University, Beijing 100871, China,2. Center of Remote Sensing and GIS of Beijing Normal University, Beijing 100875, China.Integrative inversion of land surface component temperature[J].Science China Earth Sciences,2005,48(11):2011-2019. 被引量：2
3FAN Wenjie1 & XU Xiru1,2 1.Institute of Remote Sensing and GIS of Peking University,Beijing 100871,China,2.Center of Remote Sensing and GIS of Beijing Normal University,Beijing 100875,China.The correlation of multi-angle thermal infrared data and the choice of optimal view angles[J].Science China Earth Sciences,2004,47(6):570-576. 被引量：3
4阎广建,蒋玲梅,王锦地,陈良富,李小文.Thermal bidirectional gap probability model for row crop canopies and validation[J].Science China Earth Sciences,2003,46(12):1241-1249. 被引量：2
5徐希孺,范闻捷,陈艮富.Matrix expression of thermal radiative characteristics for an open complex[J].Science China Earth Sciences,2002,45(7):654-661. 被引量：6
6刘强,田国良,柳钦火,肖青.Study on geometric correction of airborne multiangular imagery[J].Science China Earth Sciences,2002,45(12):1075-1086. 被引量：1
7CHEN Liangfu,LIU Qinhuo,FAN Wenjie,LI Xiaowen,XIAO Qing,YAN Guangjian,TIAN Guoliang.A bi-directional gap model for simulating the directional thermal radiance of row crops[J].Science China Earth Sciences,2002,45(12):1087-1098. 被引量：12
8贾新宇.VRML植被冠层光照的可视化[J].电脑编程技巧与维护,2009(S1).
9杨永民,张仁华,苏红波,田静,陈少辉,荣媛.地表波谱比辐射率便携式测量的三种改进方法[J].红外与毫米波学报,2013,32(4):366-371.
10李晓,杜永明,徐大琦,柳钦火.面向定量遥感研究的遥感模型集成平台设计与实现[J].遥感技术与应用,2015,30(2):285-291. 被引量：2

1张涛,张立新,蒋玲梅,李云青.City microwave emissivity extraction and characteristic analysis in China[J].遥感学报,2012,16(6):1272-1288. 被引量：2
2徐希孺,陈良富,庄家礼.The passive measurements of object's directional emissivity in laboratory[J].Science China(Technological Sciences),2000,43(S1):55-61.
3YANGHang,ZHANGLifu,ZHANGXuewen,FANGConghui,TONGQingxi.Algorithm of emissivity spectrum and temperature separation based on TASI data[J].遥感学报,2011,15(6):1242-1254. 被引量：1
4Frankie.清澈开扬,充满活力气息的声音 AE Radiance(星辉)系列[J].家庭影院技术,2011(6):44-45.
5王杰生,李舟军,李梦君.用描述逻辑进行语义Web服务组合[J].软件学报,2008,19(4):967-980. 被引量：34
6Guo Liping.MCPROF: An Autom atic Pattern Decom position Program Based on Monte Carlo Method[J].Annual Report of China Institute of Atomic Energy,1998(0):62-63.
7牛玉静,唐棣.嵌入半球形滤波快速反走样画线方法[J].计算机工程与应用,2010,46(10):177-179. 被引量：1
8王坤,姜琦刚,程彬.利用ASTER数据反演陆面温度的研究进展[J].世界地质,2007,26(3):309-312. 被引量：9
9谢登峰,张锦水,孙佩军,潘耀忠,云雅,袁周米琪.结合像元分解和STARFM模型的遥感数据融合[J].遥感学报,2016,20(1):62-72. 被引量：11
10刘晶,柳钦火,李静,马红章,杨乐,杜鹤娟.联合热红外与微波的作物辐射方向性模型研究[J].遥感学报,2014,18(1):1-26. 被引量：3

Chinese Science Bulletin

2000年第9期

浏览历史

内容加载中请稍等...