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Revista fitotecnia mexicana
Print version ISSN 0187-7380
Abstract
GARCIA-MARTINEZ, Héctor et al. Estimation of the vegetation coverage fraction in corn (Zea mays) through digital images taken by an unmanned aerial vehicle (UAV). Rev. fitotec. mex [online]. 2020, vol.43, n.4, pp.399-409. Epub Aug 14, 2023. ISSN 0187-7380. https://doi.org/10.35196/rfm.2020.4.399.
The vegetation cover fraction is an important variable in crop monitoring that is related to biophysical characteristics such as density, phenology, leaf area index, germination, photosynthetic capacity of foliage, evapotranspiration, productivity and crop yield. The aim of this study was to estimate the vegetation cover fraction during the development of the maize crop, from images taken by a sensor that captures information in the spectrum of red, green, and blue (RGB), mounted on an unmanned aerial vehicle, with vegetation indices and thresholding methods. Six flights were made, which generated six orthomosaics during the development of the crop. The image capture was 30 m above ground level, with resolutions of 0.75 to 0.80 cm/pixel. For the extraction of the vegetation and transformation of the orthomosaics to grayscale, four vegetation indices (IV): triangular greenness index (TGI), excess green index (ExG), visible atmospheric resistance index (VARI) and normalized green-red difference index (NGRDI) were used. Thresholding was performed with the Otsu, IsoData, Fuzzy, and momentum conservation algorithms for each grayscale image generated with the IVs to separate and classify the pixels of the images into two classes, soil and vegetation. The indices used to extract the vegetation showed high precision in the early stages of development; thus, it is possible to use them to know the germination, density, and early vigor of the crop. It was found that the EXG index presented errors from 2.2 to 17.8 % in the estimation of the vegetation cover fraction during the development of the crop; errors less than 5 % were obtained through the threshold calculated with the Fuzzy method up to 58 days after planting. The use of high-resolution digital images from the unmanned aerial vehicle (UAV) allowed estimating the vegetation cover with errors of less than 5 % in the early stages of the development of the maize crop.
Keywords : Zea mays; coverage fraction; images; thresholding; UAV; vegetation index.