Remote sensing offers the potential to study forest ecosystems by providing spatially and temporally distributed information on key biophysical and biochemical variables. The estimation of biochemical constituents of leaves from remotely sensed data is of high interest revealing insight on photosynthetic processes, plant health, plant functional types, and species composition. However, upscaling leaf level observations to canopy level is not a trivial task, in particular due to the inherent structural complexity of forests. A common solution for scaling spectral information is the use of physically-based radiative transfer models. We parameterize the Discrete Anisotropic Radiative Transfer (DART) model based on airborne and in situ measurem...
Both Imaging Spectrometry and LIDAR have been already investigated as independent data sources to de...
Coniferous forests represent canopies with a high heterogeneity in the horizontal and as well in the...
A forest canopy is a complex system with a highly structural multi-scale architecture. Physical base...
Coniferous forests represent canopies with a high heterogeneity in the horizontal and as well in the...
International audienceOptical remote sensing can contribute to biodiversity monitoring and species c...
This study presents a method for three-dimensional (3D) reconstruction of forest tree species that a...
The forest canopy is a region of vast ecological relevance constituting the bulk for photosynthetica...
Forests cover more than one third of the world’s land surface and play an important role in capturin...
A comprehensive canopy characterization of forests is derived from the combined remote sensing signa...
The heterogeneity and 3-dimensional (3D) organization of forest canopy elements is highly linked wit...
Forest biophysical variables derived from remote sensing observations are vital for climate research...
The National Ecological Observatory Network (NEON) is a continental scale environmental monitoring i...
A forest canopy is a complex system with a highly structural multi-scale architecture. Physical base...
Modeling the radiative transfer (RT) in heterogeneous forest scenes is important for understanding b...
Forest biophysical variables derived from remote sensing observations are vital for climate research...
Both Imaging Spectrometry and LIDAR have been already investigated as independent data sources to de...
Coniferous forests represent canopies with a high heterogeneity in the horizontal and as well in the...
A forest canopy is a complex system with a highly structural multi-scale architecture. Physical base...
Coniferous forests represent canopies with a high heterogeneity in the horizontal and as well in the...
International audienceOptical remote sensing can contribute to biodiversity monitoring and species c...
This study presents a method for three-dimensional (3D) reconstruction of forest tree species that a...
The forest canopy is a region of vast ecological relevance constituting the bulk for photosynthetica...
Forests cover more than one third of the world’s land surface and play an important role in capturin...
A comprehensive canopy characterization of forests is derived from the combined remote sensing signa...
The heterogeneity and 3-dimensional (3D) organization of forest canopy elements is highly linked wit...
Forest biophysical variables derived from remote sensing observations are vital for climate research...
The National Ecological Observatory Network (NEON) is a continental scale environmental monitoring i...
A forest canopy is a complex system with a highly structural multi-scale architecture. Physical base...
Modeling the radiative transfer (RT) in heterogeneous forest scenes is important for understanding b...
Forest biophysical variables derived from remote sensing observations are vital for climate research...
Both Imaging Spectrometry and LIDAR have been already investigated as independent data sources to de...
Coniferous forests represent canopies with a high heterogeneity in the horizontal and as well in the...
A forest canopy is a complex system with a highly structural multi-scale architecture. Physical base...