Retrieval of Maize Leaf Area Index Using Hyperspectral and Multispectral Data

Field spectra acquired from a handheld spectroradiometer and Sentinel-2 images spectra were used to investigate the applicability of hyperspectral and multispectral data in retrieving the maize leaf area index in low-input crop systems, with high spatial and intra-annual variability, and low yield,...

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Vydáno v:Remote sensing (Basel, Switzerland) Ročník 10; číslo 12; s. 1942
Hlavní autoři: Mananze, Sosdito, Pôças, Isabel, Cunha, Mario
Médium: Journal Article
Jazyk:angličtina
Vydáno: Basel MDPI AG 01.12.2018
Témata:
Agricultural management
Agriculture
Algorithms
Annual variations
Corn
Cost function
Crops
Data acquisition
Datasets
Divergence
field-spectroradiometer
hyperspectral
Image acquisition
Leaf area
Leaf area index
Learning algorithms
Leaves
LUT inversion
Machine learning
machine learning regression algorithms
multispectral
PROSAIL
Remote sensing
Sensors
Sentinel-2
Spectra
Spectroradiometers
Statistical analysis
Support vector machines
Variables
Vegetation
vegetation indices
Wheat
Portugal
ISSN:2072-4292, 2072-4292
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Shrnutí:Field spectra acquired from a handheld spectroradiometer and Sentinel-2 images spectra were used to investigate the applicability of hyperspectral and multispectral data in retrieving the maize leaf area index in low-input crop systems, with high spatial and intra-annual variability, and low yield, in southern Mozambique, during three years. Seventeen vegetation indices, comprising two and three band indices, and nine machine learning regression algorithms (MLRA) were tested for the statistical approach while five cost functions were tested in the look-up-table (LUT) inversion approach. The three band vegetation indices were selected, specifically the modified difference index (mDId: 725; 715; 565) for the hyperspectral dataset and the modified simple ratio (mSRc: 740; 705; 865) for the multispectral dataset of field spectra and the three band spectral index (TBSIb: 665; 865; 783) for the Sentinel-2 dataset. The relevant vector machine was the selected MLRA for the two datasets of field spectra (multispectral and hyperspectral) while the support vector machine was selected for the Sentinel-2 data. When using the LUT inversion technique, the minimum contrast estimation and the Bhattacharyya divergence cost functions were the best performing. The vegetation indices outperformed the other two approaches, with the TBSIb as the most accurate index (RMSE = 0.35). At the field scale, spectral data from Sentinel-2 can accurately retrieve the maize leaf area index in the study area.
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ISSN:2072-4292
2072-4292
DOI:10.3390/rs10121942