François Demontoux scite author profile

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Evaluating an Improved Parameterization of the Soil Emission in L-MEB

Wigneron

Chanzy

Kerr

et al. 2011

IEEE Trans. Geosci. Remote Sensing

124

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International audienceIn the forward model [L-band microwave emission of the biosphere (L-MEB)] used in the Soil Moisture and Ocean Salinity level-2 retrieval algorithm, modeling of the roughness effects is based on a simple semiempirical approach using three main “roughness” model parameters: HR, QR, and NR. In many studies, the two parameters QR and NR are set to zero. However, recent results in the literature showed that this is too approximate to accurately simulate the microwave emission of the rough soil surfaces at L-band. To investigate this, a reanalysis of the PORTOS-93 data set was carried out in this paper, considering a large range of roughness conditions. First, the results confirmed that QR could be set to zero. Second, a refinement of the L-MEB soil model, considering values of NR for both polarizations (namely, NRV and NRH), improved the model accuracy. Furthermore, simple calibrations relating the retrieved values of the roughness model parameters HR and (NRH − NRV) to the standard deviation of the surface height were developed. This new calibration of L-MEB provided a good accuracy (better than 5 K) over a large range of soil roughness and moisture conditions of the PORTOS-93 data set. Conversely, the calibrations of the roughness effects based on the Choudhury approach, which is still widely used, provided unrealistic values of surface emissivities for medium or large roughness conditions

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Evaluating the Semiempirical $H$– $Q$ Model Used to Calculate the L-Band Emissivity of a Rough Bare Soil

Lawrence

Wigneron²,

Demontoux

et al. 2013

IEEE Trans. Geosci. Remote Sensing

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Temperature- and Texture-Dependent Dielectric Model for Moist Soils at 1.4 GHz

Миронов¹,

Kerr²,

Wigneron³

et al. 2013

IEEE Geosci. Remote Sensing Lett.

105

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