Title :
Inversion of snow parameters from passive microwave remote sensing measurements by a neural network trained with a multiple scattering model
Author :
Tsang, Leung ; Chen, Zhengxiao ; Oh, Seho ; Marks, Robert J., II ; Chang, A.T.C.
Author_Institution :
Dept. of Electr. Eng., Washington Univ., Seattle, WA, USA
fDate :
9/1/1992 12:00:00 AM
Abstract :
The inversion of snow parameters from passive microwave remote sensing measurements is performed with a neural network trained with a dense-media multiple-scattering model. The input-output pairs generated by the scattering model are used to train the neural network. Simultaneous inversion of three parameters, mean-grain size of ice particles in snow, snow density, and snow temperature from five brightness temperatures, is reported. It is shown that the neural network gives good results for simulated data. The absolute percentage errors for mean-grain size of ice particles and snow density are less than 10%, and the absolute error for snow temperature is less than 3 K. The neural network with the trained weighting coefficients of the three-parameter model is also used to invert SSMI data taken over the Antarctic region
Keywords :
geophysics computing; hydrological techniques; neural nets; radiometry; remote sensing; snow; computer method; hydrology; mean-grain size; measurement; multiple scattering model; neural network; passive microwave remote sensing; radiometry; snow density; snow parameters; snow temperature; technique; Antarctica; Brightness temperature; Ice; Microwave measurements; Neural networks; Particle scattering; Passive microwave remote sensing; Performance evaluation; Snow; Temperature sensors;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
