Scale effects and scaling-up by geometric-optical model 被引量：9

Scale effects and scaling-up by geometric-optical model

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摘要 This is a follow-up paper to our "Scale effect of Planck’s law over nonisothermal blackbody surface". More examples are used to describe the scale effect in detail, and the scaling-up of Planck law over blackbody surface is further extended to three-dimension nonisothermal surface. This scaling-up results in a conceptual model for the directionality and spectral signature of thermal radiation at the scale of remote sensing pixels. This new model is also an improvement of Li-Strahler-Friedl conceptual model in a sense that the new model needs only statistic parameters at the pixel scale, without request of sub-pixel scale parameters as the LSF model does. This is a follow-up paper to our 'Scale effect of Planck's law over nonisothermal blackbody surface'. More examples are used to describe the scale effect in detail, and the scaling-up of Planck law over blackbody surface is further extended to three-dimension nonisothermal surface. This scaling-up results in a conceptual model for the directionality and spectral signature of thermal radiation at the scale of remote sensing pixels. This new model is also an improvement of Li-Strahler-Friedl conceptual model in a sense that the new model needs only statistic parameters at the pixel scale, without request of sub-pixel scale parameters as the LSF model does.

作者李小文王锦地 A.H.Strahler

出处《Science China(Technological Sciences)》 SCIE EI CAS 2000年第S1期17-22,共6页 中国科学（技术科学英文版）

关键词 SCALE effect THERMAL RADIATION geometric-optics. scale effect, thermal radiation, geometric-optics.

分类号 TP701 [自动化与计算机技术—检测技术与自动化装置]

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参考文献9

1Li Xiaowen,Strahler A H.Geometric optical modeling of a coniferous forest canopy. IEEE Transactions on Geoscience and Remote Sensing . 1985
2Li 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
3Bryan J. AlbersAlan H. Strahler Xiaowen Li and Shunlin LiangKeith C. Clarke.Radiometric measurements of gap probability in conifer tree canopies. Remote Sensing of Environment . 1990
4J. Dozier,S. G. Warren.Effect of viewing angle on the infrared brightness temperature of snow. Water Resources Research . 1982
5Zheng_ming Wan,Dozier,J.A generalized split_window algorithm for retrieving land_surface temperature from space. IEEE Trans .Geos . Remote Sens . 1996
6Li X,Strahler A H,Friedl M A.A conceptual model for effective directional emissivity from non-isothermal surfaces. IEEE Transactions on Geoscience and Remote Sensing . 1999
7Becker, F,Li, Z.Surface temperature and emissivity at various scales: definition, measurement and related problems. Remote Sensing Reviews . 1995
8Li Xiaowen,Wang Jindi,Strahler A.Scale effects of Planck Law over a non-isothermal blackbody surface. Science in ChinaSeries E . 1999
9Norman, J,Becker. F.Terminology in thermal infrared remote sensing of natural surfaces. Agricul. and Forest Meteorol . 1995

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2陶波,葛全胜,李克让,邵雪梅.陆地生态系统碳循环研究进展[J].地理研究,2001,20(5):564-575. 被引量：122
3非同温表面热辐射方向性LSF概念模型的野外试验验证[J].遥感学报,2000,4(z1):81-85. 被引量：2
4万华伟,王锦地,屈永华,焦子锑,张颢.植被波谱空间尺度效应及尺度转换方法初步研究[J].遥感学报,2008,12(4):538-545. 被引量：19
5LIU Zhenhua1 & ZHAO Yingshi2 1. Information College, South China Agricultural University, Guangzhou 510642, China,2. Graduate University of Chinese Academy of Sciences, Beijing 100049, China.Research on the method for retrieving soil moisture using thermal inertia model[J].Science China Earth Sciences,2006,49(5):539-545. 被引量：5
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Scale effects and scaling-up by geometric-optical model 被引量：9

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