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* Corresponding author 1 ESA - Agence Spatiale Européenne 2 CESBIO - Centre d-études spatiales de la biosphère 3 Médias France

Abstract : Multi-directional satellite optical imagery collected at high spatial resolution potentially allows improving the accuracy of biophysical variable retrieval. The improvements result from the inclusion of the directional anisotropy of the target, which provides additional information related to vegetation structural properties. The research presented here analyses airborne imagery and ground reference data in order to quantify the accuracy of the retrieval methods for LAI leaf area index. Both variables are estimated through processing of airborne POLDER POLarization and Directionality of Earth Reflectances sensor images from an agricultural area. In a first step, the BRDF Bi-directional Reflectance Distribution Function of the surface is estimated using a simple parametric model, whose parameters where derived from fitting POLDER BRF Bi-directional Reflectance Factor measurements. LAI estimation was performed using two different approaches, both based on an artificial neural network designed to invert a 1D soil-vegetation radiative transfer model. The difference between the two methods is that one of them uses only the isotropic component of the BRDF parametric model and the other the full BRDF information, i.e. adding the anisotropic components. The algorithm using isotropic information shows a clear improvement when compared to semiempirical approaches. Root mean square error between estimated and ground measured LAI values is 0.87. However, the method using the full BRDF information yielded poorer estimates, pointing out the difficulty of fully exploiting the multi-directional information. The performance decrease is partially explained by the incoherence between real and modelled BRDF measurements.

Autor: Ferran Gascon - Jean-Philippe Gastellu-Etchegorry - M. Leroy -



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