Concurrent availability of VHR (Very High Resolution) images at both optical and microwave bands opens new challenges in many applicative scenarios of Earth Observation (EO). In particular this is true for precision farming activities where the retrieval on the metric scale of biophysical parameters and of information regarding vegetation spatial distributions can be very effective in supporting farmers during the production cycles. However, the inversion problem giving the value of the desired variable from the measured electromagnetic quantities (the image data) can be very complex and the nonlinear relationships involved need to be handled by suitable algorithms. In this paper a complete processing scheme providing quantities of interest for precision viticulture from data provided by WorldView-2 (WV2) and COSMOSkyMed (CSK) space platforms is presented. Once the appropriate season time was selected, the satellite data have been acquired over the test area within a limited time window and concurrently with the collection of the groundtruth. The workflow, besides adequate pre-processing steps, includes two neural networks (NN) modules, one is dedicated to the extraction of a restricted number of nonlinear components from the WV2 data, the other one to the actual inversion problem. The obtained results seem to be satisfactory with respect to the requirements provided by the users.

DEL FRATE, F., Latini, D., Picchiani, M., Schiavon, G., Vittucci, C. (2014). A neural network architecture combining VHR SAR and multispectral data for precision farming in viticulture. In International Geoscience and Remote Sensing Symposium (IGARSS) (pp.1508-1511). Institute of Electrical and Electronics Engineers Inc. [10.1109/IGARSS.2014.6946724].

A neural network architecture combining VHR SAR and multispectral data for precision farming in viticulture

DEL FRATE, FABIO;SCHIAVON, GIOVANNI;
2014-01-01

Abstract

Concurrent availability of VHR (Very High Resolution) images at both optical and microwave bands opens new challenges in many applicative scenarios of Earth Observation (EO). In particular this is true for precision farming activities where the retrieval on the metric scale of biophysical parameters and of information regarding vegetation spatial distributions can be very effective in supporting farmers during the production cycles. However, the inversion problem giving the value of the desired variable from the measured electromagnetic quantities (the image data) can be very complex and the nonlinear relationships involved need to be handled by suitable algorithms. In this paper a complete processing scheme providing quantities of interest for precision viticulture from data provided by WorldView-2 (WV2) and COSMOSkyMed (CSK) space platforms is presented. Once the appropriate season time was selected, the satellite data have been acquired over the test area within a limited time window and concurrently with the collection of the groundtruth. The workflow, besides adequate pre-processing steps, includes two neural networks (NN) modules, one is dedicated to the extraction of a restricted number of nonlinear components from the WV2 data, the other one to the actual inversion problem. The obtained results seem to be satisfactory with respect to the requirements provided by the users.
Joint 2014 IEEE International Geoscience and Remote Sensing Symposium, IGARSS 2014 and the 35th Canadian Symposium on Remote Sensing, CSRS 2014
Quebec Convention Centre, can
2014
The Institute of Electrical and Electronics Engineers Geoscience and Remote Sensing Society (IEEE GRSS)
Rilevanza internazionale
2014
Settore ING-INF/02 - CAMPI ELETTROMAGNETICI
English
Cosmo-SkyMed; Data Fusion; Precision Farming; WorldView-2; Earth and Planetary Sciences (all); Computer Science Applications1707 Computer Vision and Pattern Recognition
Intervento a convegno
DEL FRATE, F., Latini, D., Picchiani, M., Schiavon, G., Vittucci, C. (2014). A neural network architecture combining VHR SAR and multispectral data for precision farming in viticulture. In International Geoscience and Remote Sensing Symposium (IGARSS) (pp.1508-1511). Institute of Electrical and Electronics Engineers Inc. [10.1109/IGARSS.2014.6946724].
DEL FRATE, F; Latini, D; Picchiani, M; Schiavon, G; Vittucci, C
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/113211
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