The derivation, testing, and employment to parameter retrieval of the Helsi
nki University of Technology (HUT) snow microwave emission model is present
ed. The radiative transfer-based semi-empirical model describes the emissio
n behavior of a homogeneous snowpack as a function of water equivalent (SWE
), effective grain size, and density of snow. Additionally, the modeling ap
proach takes into account the influence of soil surface, forest canopy, and
atmosphere to spaceborne observed brightness temperature by using empirica
l and semi-empirical formulas. The comparison of model predictions with ind
ependent experimental data shows good correlations, especially in terms of
spectral characteristics. This enables the development of a new inversion t
echnique for the SWE retrieval from spaceborne data based on the developed
model, The test results using special sensor microwave/imager (SSM/I) data
from boreal forest zone showed SWE retrieval accuracies considerably higher
than those obtained with conventional algorithms. A discussion and analysi
s on the feasibility of the new SWE retrieval technique for operational app
lications is also included.