Add to ORKGThe results obtained in the research program of microwave scattering properties of snow fields are presented. Experimental results are presented showing backscatter dependence on frequency (5.8-8.0 GHz), angle of incidence (0-60 degrees), snow wetness (time of day), and frequency modulation (0-500 MHz). Theoretical studies are being made of the inverse scattering problem yielding some preliminary results concerning the determination of the dielectric constant of the snow layer. The experimental results lead to the following conclusions: snow layering affects backscatter, layer response is significant up to 45 degrees of incidence, wetness modifies snow layer effects, frequency modulation masks the layer response, and for the proper choice o...
Abstract—Falling snow is an important component of global precipitation in extratropical regions. Th...
To develop better understanding of the scattering mechanisms underlying microwave and millimeter wav...
One of the most important parameters for accurate snowmelt runoff prediction is snow water equivalen...
The backscatter of natural snowpacks was measured using a swept-frequency system operating from 5.8 ...
It is generally recognized that microwaves, due to their penetrating ability, represent a promising ...
The 1-8 GHz microwave active spectrometer system was used to measure the backscatter response of sno...
Some results are presented of a two year investigation on microwave emissions from snow. Included in...
This study analyzes passive and active microwave measurements during the 2003 Wakasa Bay field exper...
Study of snow is an important domain of research in hydrology and meteorology. It has been demonstra...
Study of snow is an important domain of research in hydrology and meteorology. It has been demonstra...
Thesis (Ph. D.)--University of Washington, 2004Falling snow is an important component of global prec...
Topic concerning remote sensing capabilities for providing reliable snow cover data and measurement ...
This paper investigates the influence of snow microphysical parameters on the enhancement of groundÃ...
Because microwave brightness temperatures emitted by snow covered surfaces are highly variable, snow...
The radiation emitted from dry and wet snowpack in the microwave region (1 to 100 GHz) is discussed ...
Abstract—Falling snow is an important component of global precipitation in extratropical regions. Th...
To develop better understanding of the scattering mechanisms underlying microwave and millimeter wav...
One of the most important parameters for accurate snowmelt runoff prediction is snow water equivalen...
The backscatter of natural snowpacks was measured using a swept-frequency system operating from 5.8 ...
It is generally recognized that microwaves, due to their penetrating ability, represent a promising ...
The 1-8 GHz microwave active spectrometer system was used to measure the backscatter response of sno...
Some results are presented of a two year investigation on microwave emissions from snow. Included in...
This study analyzes passive and active microwave measurements during the 2003 Wakasa Bay field exper...
Study of snow is an important domain of research in hydrology and meteorology. It has been demonstra...
Study of snow is an important domain of research in hydrology and meteorology. It has been demonstra...
Thesis (Ph. D.)--University of Washington, 2004Falling snow is an important component of global prec...
Topic concerning remote sensing capabilities for providing reliable snow cover data and measurement ...
This paper investigates the influence of snow microphysical parameters on the enhancement of groundÃ...
Because microwave brightness temperatures emitted by snow covered surfaces are highly variable, snow...
The radiation emitted from dry and wet snowpack in the microwave region (1 to 100 GHz) is discussed ...
Abstract—Falling snow is an important component of global precipitation in extratropical regions. Th...
To develop better understanding of the scattering mechanisms underlying microwave and millimeter wav...
One of the most important parameters for accurate snowmelt runoff prediction is snow water equivalen...