Assessment of vegetation biochemical and biophysical variables is useful when developing indicators for biodiversity monitoring and climate change studies. Here, we compared a radiative transfer model (RTM) inversion by merit function and five machine learning algorithms trained on an RTM simulated dataset predicting the three plant traits leaf chlorophyll content (LCC), canopy chlorophyll content (CCC), and leaf area index (LAI), in a mixed temperate forest. The accuracy of the retrieval methods in predicting these three plant traits with spectral data from Sentinel-2 acquired on 13 July 2017 over Bavarian Forest National Park, Germany, was evaluated using in situ measurements collected contemporaneously. The RTM inversion using merit func...
We used synthetic reflectance spectra generated by a radiative transfer model, PROSPECT-5, to develo...
Leaf chlorophyll plays an essential role in controlling photosynthesis, physiological activities and...
Lookup-table (LUT)-based radiative transfer model inversion is considered a physically-sound and rob...
Assessment of vegetation biochemical and biophysical variables is useful when developing indicators ...
The Sentinel-2 Multi-Spectral Imager (MSI) has three spectral bands centered at 705, 740, and 783 nm...
Assessments of ecosystem functioning rely heavily on quantification of vegetation properties. The se...
Abstract: This study focuses on the comparison of hybrid methods of estimation of biophysical variab...
A new era in the retrieval of plant traits has started by emerging the new satellites such as the Co...
Accurate measurement of canopy chlorophyll content (CCC) is essential for the understanding of terre...
The machine learning method, random forest (RF), is applied in order to derive biophysical and struc...
Quantification of vegetation properties plays an indispensable role in assessments of ecosystem func...
This paper introduces a modular processing chain to derive global high-resolution maps of leaf trait...
Optical remote sensing plays a fundament role in attempts to map repeatedly, in various spatial reso...
The machine learning method, random forest (RF), is applied in order to derive biophysical and struc...
Remote sensing (RS) of biophysical variables plays a vital role in providing the information necessa...
We used synthetic reflectance spectra generated by a radiative transfer model, PROSPECT-5, to develo...
Leaf chlorophyll plays an essential role in controlling photosynthesis, physiological activities and...
Lookup-table (LUT)-based radiative transfer model inversion is considered a physically-sound and rob...
Assessment of vegetation biochemical and biophysical variables is useful when developing indicators ...
The Sentinel-2 Multi-Spectral Imager (MSI) has three spectral bands centered at 705, 740, and 783 nm...
Assessments of ecosystem functioning rely heavily on quantification of vegetation properties. The se...
Abstract: This study focuses on the comparison of hybrid methods of estimation of biophysical variab...
A new era in the retrieval of plant traits has started by emerging the new satellites such as the Co...
Accurate measurement of canopy chlorophyll content (CCC) is essential for the understanding of terre...
The machine learning method, random forest (RF), is applied in order to derive biophysical and struc...
Quantification of vegetation properties plays an indispensable role in assessments of ecosystem func...
This paper introduces a modular processing chain to derive global high-resolution maps of leaf trait...
Optical remote sensing plays a fundament role in attempts to map repeatedly, in various spatial reso...
The machine learning method, random forest (RF), is applied in order to derive biophysical and struc...
Remote sensing (RS) of biophysical variables plays a vital role in providing the information necessa...
We used synthetic reflectance spectra generated by a radiative transfer model, PROSPECT-5, to develo...
Leaf chlorophyll plays an essential role in controlling photosynthesis, physiological activities and...
Lookup-table (LUT)-based radiative transfer model inversion is considered a physically-sound and rob...