Estimation of surface snow properties using combined near-infrared reflectance and millimeter-wave backscatter

Conference Proceedings Second Topical Symposium on Combined Optical-Microwave Earth and Atmosphere Sensing Pub Date : 1995-04-03 DOI:10.1109/COMEAS.1995.472369

R. Narayanan, S.R. Jackson, K. St. Germain

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引用次数: 1

Abstract

The need to estimate surface snow properties such as surface roughness, free-water content, and average grain size is crucial in determining the metamorphic state of snow for various military and environmental applications. Remote sensing techniques using combined concurrent measurements of near-infrared passive reflectance and millimeter-wave radar backscatter show promise in estimating the above snow parameters. Near-infrared reflectance is strongly dependent on snow grain size and free-water content, while millimeter-wave radar backscatter is primarily dependent on free-water content, and to some extent, on surface roughness. However, the spatial resolutions and penetration depths are different at near-infrared and millimeter wavelengths. By combining near-infrared and millimeter-wave measurements, the estimation of spatial variations in free-water content of snow can be improved considerably, while simultaneously providing meaningful estimates of grain size and surface roughness.<>

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结合近红外反射和毫米波后向散射估算地表积雪特性

需要估计表面雪的性质，如表面粗糙度，自由水含量和平均晶粒尺寸是确定各种军事和环境应用的雪的变质状态至关重要。利用近红外被动反射率和毫米波雷达后向散射联合测量的遥感技术在估计上述积雪参数方面表现出良好的前景。近红外反射率与雪的粒径和自由水含量密切相关，而毫米波雷达后向散射主要与自由水含量有关，并在一定程度上与表面粗糙度有关。然而，在近红外和毫米波波段，空间分辨率和穿透深度是不同的。通过结合近红外和毫米波测量，可以大大提高对雪中自由水含量空间变化的估计，同时提供有意义的颗粒大小和表面粗糙度估计。

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Conference Proceedings Second Topical Symposium on Combined Optical-Microwave Earth and Atmosphere Sensing

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