Forest biophysical variables derived from remote sensing observations are vital for climate research. The combination of structurally and radiometrically accurate 3D “virtual” forests with radiative transfer (RT) models creates a powerful tool to facilitate the calibration and validation of remote sensing data and derived biophysical products by helping us understand the assumptions made in data processing algorithms. We present a workflow that uses highly detailed 3D terrestrial laser scanning (TLS) data to generate virtual forests for RT model simulations. Our approach to forest stand reconstruction from a co-registered point cloud is unique as it models each tree individually. Our approach follows three steps: (1) tree segmentation; (2) ...
Coniferous forests represent canopies with a high heterogeneity in the horizontal and as well in the...
Forest canopy structure has long been known to be a major driver of the processes regulating the exc...
Laser scanning from different acquisition platforms enables the collection of 3D point clouds from d...
Forest biophysical variables derived from remote sensing observations are vital for climate research...
This study presents a method for three-dimensional (3D) reconstruction of forest tree species that a...
Combining virtual forests with radiative transfer is a powerful tool to calibrate and validate groun...
Forests cover more than one third of the world’s land surface and play an important role in capturin...
Radiative transfer models that use spatially explicit 3D models to represent forest structure can si...
Remote sensing offers the potential to study forest ecosystems by providing spatially and temporally...
A novel methodology is proposed to reconstruct 3D tree architectures from terrestrial LiDAR (TLiDAR)...
Understanding the structure and dynamics of trees and forest is key in studying the environment and ...
The forest canopy is a region of vast ecological relevance constituting the bulk for photosynthetica...
Terrestrial laser scanning (TLS) was introduced for basic forest measurements, such as tree height a...
Terrestrial laser scanning (TLS) was introduced for basic forest measurements, such as tree height a...
A comprehensive canopy characterization of forests is derived from the combined remote sensing signa...
Coniferous forests represent canopies with a high heterogeneity in the horizontal and as well in the...
Forest canopy structure has long been known to be a major driver of the processes regulating the exc...
Laser scanning from different acquisition platforms enables the collection of 3D point clouds from d...
Forest biophysical variables derived from remote sensing observations are vital for climate research...
This study presents a method for three-dimensional (3D) reconstruction of forest tree species that a...
Combining virtual forests with radiative transfer is a powerful tool to calibrate and validate groun...
Forests cover more than one third of the world’s land surface and play an important role in capturin...
Radiative transfer models that use spatially explicit 3D models to represent forest structure can si...
Remote sensing offers the potential to study forest ecosystems by providing spatially and temporally...
A novel methodology is proposed to reconstruct 3D tree architectures from terrestrial LiDAR (TLiDAR)...
Understanding the structure and dynamics of trees and forest is key in studying the environment and ...
The forest canopy is a region of vast ecological relevance constituting the bulk for photosynthetica...
Terrestrial laser scanning (TLS) was introduced for basic forest measurements, such as tree height a...
Terrestrial laser scanning (TLS) was introduced for basic forest measurements, such as tree height a...
A comprehensive canopy characterization of forests is derived from the combined remote sensing signa...
Coniferous forests represent canopies with a high heterogeneity in the horizontal and as well in the...
Forest canopy structure has long been known to be a major driver of the processes regulating the exc...
Laser scanning from different acquisition platforms enables the collection of 3D point clouds from d...