The objective of this research was to detect and recognize the plant stress caused by disease in the field conditions by combining hyperspectral reflection information between 450 and 900nm and fluorescence imaging. The results can be used to develop a tractor mounted cost-effective optical device for site-specific pesticide application in order to reduce and optimize pesticide use. The work reported here used yellow rust (Puccinia striiformis) disease of winter wheat as a model system. In the field hyperspectral reflection images of healthy and infected plants were taken by an imaging spectrograph mounted at spray boom height. Leaf recognition and spectral normalization procedures were used to account for differences in canopy architecture and spectral illumination were used. A model, based on quadratic discrimination, was built, using a selected group of wavebands to differentiate diseased from healthy plants. The model could discriminate diseased from healthy crop with an error of about 10% using measurements from only three wavebands. Multispectral fluorescence images were taken on the same plants using UV-blue excitation. Through comparison of the 550 and 690 nm fluorescence images, the detection of disease was clearly possible. Fraction of pixels in one image, recognized as diseased, was set as final fluorescence disease variable and called the lesion index (LI). The lesion index was added to the pool of normalized selected reflection wavebands. This pool of observations was used in a quadratic discrimination model. The combined model improved disease discrimination compared to either the spectral model or fluorescent model and had a classification error of between 5 and 6 %. The results suggest that there is a potential for developing detection systems based on multisensor measurements that can be used in precision disease control systems for use in arable crops.

Foliar Disease Detection in the Field Using Optical Sensor Fusion / C. Bravo, D. Moshou, R. Oberti, J. West, A. Mccartney, L. Bodria, H. Ramon. - In: E-JOURNAL - CIGR. - ISSN 1682-1130. - 6:(2004), pp. 1-14.

Foliar Disease Detection in the Field Using Optical Sensor Fusion

R. Oberti;L. Bodria
Penultimo
;
2004

Abstract

The objective of this research was to detect and recognize the plant stress caused by disease in the field conditions by combining hyperspectral reflection information between 450 and 900nm and fluorescence imaging. The results can be used to develop a tractor mounted cost-effective optical device for site-specific pesticide application in order to reduce and optimize pesticide use. The work reported here used yellow rust (Puccinia striiformis) disease of winter wheat as a model system. In the field hyperspectral reflection images of healthy and infected plants were taken by an imaging spectrograph mounted at spray boom height. Leaf recognition and spectral normalization procedures were used to account for differences in canopy architecture and spectral illumination were used. A model, based on quadratic discrimination, was built, using a selected group of wavebands to differentiate diseased from healthy plants. The model could discriminate diseased from healthy crop with an error of about 10% using measurements from only three wavebands. Multispectral fluorescence images were taken on the same plants using UV-blue excitation. Through comparison of the 550 and 690 nm fluorescence images, the detection of disease was clearly possible. Fraction of pixels in one image, recognized as diseased, was set as final fluorescence disease variable and called the lesion index (LI). The lesion index was added to the pool of normalized selected reflection wavebands. This pool of observations was used in a quadratic discrimination model. The combined model improved disease discrimination compared to either the spectral model or fluorescent model and had a classification error of between 5 and 6 %. The results suggest that there is a potential for developing detection systems based on multisensor measurements that can be used in precision disease control systems for use in arable crops.
spectrograph ; imaging fluorescence ; hyperspectral imaging ; disease detection ; sensor fusion ; quadratic discrimination ; yellow rust
Settore AGR/09 - Meccanica Agraria
2004
http://www.cigrjournal.org/index.php/Ejounral/article/view/537/531
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/26601
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