Empirical vegetation indices derived from spectral reflectance data are widely used in remote sensing of the biosphere, as they represent robust proxies for canopy structure, leaf pigment content, and, subsequently, plant photosynthetic potential. Here, we generalize the broad family of commonly used vegetation indices by exploiting all higher-order relations between the spectral channels involved. This results in a higher sensitivity to vegetation biophysical and physiological parameters. The presented nonlinear generalization of the celebrated normalized difference vegetation index (NDVI) consistently improves accuracy in monitoring key parameters, such as leaf area index, gross primary productivity, and sun-induced chlorophyll fluorescen...
For a better evaluation of the accuracy of VIs in estimating biophysical parameters, a "true" VI val...
Leaf Area Index (LAI) is a crucial biophysical variable for agroecosystems monitoring. Conventional ...
Accurate estimation of canopy chlorophyll content (CCC) is critically important for agricultural pro...
Empirical vegetation indices derived from spectral reflectance data are widely used in remote sensin...
Vegetation dynamics can be tracked using remotely sensed vegetation indices, but these metrics can r...
Using a spectral vegetation index (VI) is an efficient approach for monitoring plant phenology from ...
Plants play a very important role in ecological systems -- they transform CO2 into oxygen. It is the...
In a range of plant species from three Californian vegetation types, we examined the widely used "no...
Continuous availability of Sentinel data has opened a new era for timely assessing vegetation biophy...
This study investigates the performances in a terrestrial ecosystem of gross primary production (GPP...
Sun-induced chlorophyll fluorescence (SIF) has been used to track vegetation photosynthetic activity...
This chapter provides an overview of methods used for the extraction of biophysical vegetation varia...
Stress-related biophysical variables of capital intensive orchard crops can be estimated with proxie...
© 2016 by the authors. Stress-related biophysical variables of capital intensive orchard crops can ...
ABSTRACT: Crop monitoring is an important factor that contributes in any nation’s economy, and thei...
For a better evaluation of the accuracy of VIs in estimating biophysical parameters, a "true" VI val...
Leaf Area Index (LAI) is a crucial biophysical variable for agroecosystems monitoring. Conventional ...
Accurate estimation of canopy chlorophyll content (CCC) is critically important for agricultural pro...
Empirical vegetation indices derived from spectral reflectance data are widely used in remote sensin...
Vegetation dynamics can be tracked using remotely sensed vegetation indices, but these metrics can r...
Using a spectral vegetation index (VI) is an efficient approach for monitoring plant phenology from ...
Plants play a very important role in ecological systems -- they transform CO2 into oxygen. It is the...
In a range of plant species from three Californian vegetation types, we examined the widely used "no...
Continuous availability of Sentinel data has opened a new era for timely assessing vegetation biophy...
This study investigates the performances in a terrestrial ecosystem of gross primary production (GPP...
Sun-induced chlorophyll fluorescence (SIF) has been used to track vegetation photosynthetic activity...
This chapter provides an overview of methods used for the extraction of biophysical vegetation varia...
Stress-related biophysical variables of capital intensive orchard crops can be estimated with proxie...
© 2016 by the authors. Stress-related biophysical variables of capital intensive orchard crops can ...
ABSTRACT: Crop monitoring is an important factor that contributes in any nation’s economy, and thei...
For a better evaluation of the accuracy of VIs in estimating biophysical parameters, a "true" VI val...
Leaf Area Index (LAI) is a crucial biophysical variable for agroecosystems monitoring. Conventional ...
Accurate estimation of canopy chlorophyll content (CCC) is critically important for agricultural pro...