The heterogeneity and 3-dimensional (3D) organization of forest canopy elements is highly linked with the spatial variability of within and below canopy light. Using terrestrial LiDAR we studied the influence of several parameters in efficiently building 3D canopy models, and quantified below canopy light in 2 forest stands using ray-tracing. A voxel-based approach was used for canopy modeling, and a series of forest scenes were built for calculation of simulated structural variables (e.g., leaf area index, canopy openness). Through hypothesis testing, we found that simulated variables were consistent with the observed ones depending on: forest type, voxel size utilized in 3D modeling, and the zenith angle ranges used for calculations. Foll...
Forest canopies are characterized by the composition, organization, and location of aboveground biom...
Modeling the radiative transfer (RT) in heterogeneous forest scenes is important for understanding b...
Understanding canopy radiation regimes is critical to successfully modeling vegetation growth and fu...
A methodology is presented that describes the direct interaction of a forest canopy with incoming ra...
The forest canopy is a region of vast ecological relevance constituting the bulk for photosynthetica...
In this analysis, a method for construction of forest canopy three-dimensional (3D) models from terr...
Abstract: In this analysis, a method for construction of forest canopy three-dimensional (3D) models...
Abstract. The local light regime within the tree canopy is crucial information for modeling water, c...
Forest canopy structure has long been known to be a major driver of the processes regulating the exc...
The forest canopy is a region of vast ecological relevance constituting the bulk for photosynthetica...
The local light regime within the tree canopy is crucial information for modeling water, carbon and ...
A forest canopy is a complex system with a highly structural multi-scale architecture. Physical base...
A forest canopy is a complex system with a highly structural multi-scale architecture. Physical base...
Remote sensing offers the potential to study forest ecosystems by providing spatially and temporally...
A terrestrial laser scanning (TLS) experiment was carried out in the EAGLE 2006 campaign to characte...
Forest canopies are characterized by the composition, organization, and location of aboveground biom...
Modeling the radiative transfer (RT) in heterogeneous forest scenes is important for understanding b...
Understanding canopy radiation regimes is critical to successfully modeling vegetation growth and fu...
A methodology is presented that describes the direct interaction of a forest canopy with incoming ra...
The forest canopy is a region of vast ecological relevance constituting the bulk for photosynthetica...
In this analysis, a method for construction of forest canopy three-dimensional (3D) models from terr...
Abstract: In this analysis, a method for construction of forest canopy three-dimensional (3D) models...
Abstract. The local light regime within the tree canopy is crucial information for modeling water, c...
Forest canopy structure has long been known to be a major driver of the processes regulating the exc...
The forest canopy is a region of vast ecological relevance constituting the bulk for photosynthetica...
The local light regime within the tree canopy is crucial information for modeling water, carbon and ...
A forest canopy is a complex system with a highly structural multi-scale architecture. Physical base...
A forest canopy is a complex system with a highly structural multi-scale architecture. Physical base...
Remote sensing offers the potential to study forest ecosystems by providing spatially and temporally...
A terrestrial laser scanning (TLS) experiment was carried out in the EAGLE 2006 campaign to characte...
Forest canopies are characterized by the composition, organization, and location of aboveground biom...
Modeling the radiative transfer (RT) in heterogeneous forest scenes is important for understanding b...
Understanding canopy radiation regimes is critical to successfully modeling vegetation growth and fu...