Abstract—Due to its measurement principle, light detection and ranging (lidar) is particularly suited to estimate the horizontal as well as vertical distribution of forest structure. Quantification and characterization of forest structure is important for the under-standing of the forest ecosystem functioning and, moreover, will help to assess carbon sequestration within forests. The relationship between the signal recorded by a lidar system and the canopy structure of a forest can be accurately characterized by physically based radiative transfer models (RTMs). A three-dimensional RTM is capable of representing the complex forest canopy struc-ture as well as the involved physical processes of the lidar pulse interactions with the vegetatio...
Abstract: Light detection and ranging (LiDAR) technology provides horizontal and vertical informatio...
Remote sensing offers the potential to study forest ecosystems by providing spatially and temporally...
Coniferous forests represent canopies with a high heterogeneity in the horizontal and as well in the...
A comprehensive canopy characterization of forests is derived from the combined remote sensing signa...
Forest canopy leaf area index (LAI) is a critical variable for the modeling of climates and ecosyste...
The National Ecological Observatory Network (NEON) is a continental scale environmental monitoring i...
The forest canopy is a region of vast ecological relevance constituting the bulk for photosynthetica...
A forest canopy is a complex system with a highly structural multi-scale architecture. Physical base...
Abstract: LiDAR (Light Detection And Ranging) remote sensing has been used to extract surface inform...
A forest canopy is a complex system with a highly structural multi-scale architecture. Physical base...
The measurement of forests is essential for monitoring and predicting the role and response of the l...
In the past, obtaining reliable measurements of key forest canopy metrics has been difficult, even a...
The accurate estimation of leaf water content (LWC) and knowledge about its spatial variation are im...
Forest ecosystems are a significant faction of the Earth’s landscape, and accurate estimates of fore...
Abstract: Light Detection And Ranging (LiDAR) in forested areas is used for constructing Digital Ter...
Abstract: Light detection and ranging (LiDAR) technology provides horizontal and vertical informatio...
Remote sensing offers the potential to study forest ecosystems by providing spatially and temporally...
Coniferous forests represent canopies with a high heterogeneity in the horizontal and as well in the...
A comprehensive canopy characterization of forests is derived from the combined remote sensing signa...
Forest canopy leaf area index (LAI) is a critical variable for the modeling of climates and ecosyste...
The National Ecological Observatory Network (NEON) is a continental scale environmental monitoring i...
The forest canopy is a region of vast ecological relevance constituting the bulk for photosynthetica...
A forest canopy is a complex system with a highly structural multi-scale architecture. Physical base...
Abstract: LiDAR (Light Detection And Ranging) remote sensing has been used to extract surface inform...
A forest canopy is a complex system with a highly structural multi-scale architecture. Physical base...
The measurement of forests is essential for monitoring and predicting the role and response of the l...
In the past, obtaining reliable measurements of key forest canopy metrics has been difficult, even a...
The accurate estimation of leaf water content (LWC) and knowledge about its spatial variation are im...
Forest ecosystems are a significant faction of the Earth’s landscape, and accurate estimates of fore...
Abstract: Light Detection And Ranging (LiDAR) in forested areas is used for constructing Digital Ter...
Abstract: Light detection and ranging (LiDAR) technology provides horizontal and vertical informatio...
Remote sensing offers the potential to study forest ecosystems by providing spatially and temporally...
Coniferous forests represent canopies with a high heterogeneity in the horizontal and as well in the...