Extracting 3D tree models based on terrestrial laser scanning (TLS) point clouds is a challenging task as trees are complex objects. Current TLS devices acquire high-density data that allow a detailed reconstruction of the tree topology. However, in dense forests a fully automatic reconstruction of trees is often limited by occlusion, wind influences and co-registration issues. In this paper, a semi-automatic method for extracting branching and stem structure based on equirectangular projections (range and intensity maps) is presented. The digitization of branches and stems is based on 2D maps, which enables simple navigation and raster processing. The modeling is performed for each viewpoint individually instead of using a registered point...
3D models of tree geometry are important for numerous studies, such as for urban planning or agricul...
This video shows how a forest plot can be automatically reconstructed from terrestrial laser scannin...
A comprehensive 3-D structural mapping of stem is essential for an accurate 3-D crown modeling and t...
Extracting 3D tree models based on terrestrial laser scanning (TLS) point clouds is a challenging t...
Abstract: Extracting 3D tree models based on terrestrial laser scanning (TLS) point clouds is a chal...
Understanding the structure and dynamics of trees and forest is key in studying the environment and ...
This paper presents a method for fitting cylinders into a point cloud, derived from a terrestrial la...
A method for extracting forest parameters is described in this paper. The 3D point clouds derived fr...
The present study introduces a method to identify tree stems from terrestrial laser scanning (TLS) d...
Terrestrial laser scanning (TLS) is a promising technique for plot-wise acquisition of geometric att...
3D models of tree geometry are important for numerous studies, such as for urban planning or agricul...
The investigation of single trees in a forest is of ecological and economical interest. One aim is t...
Terrestrial laser scanning (TLS) has been adopted as a feasible technique to characterize tree stems...
This study presents a method for three-dimensional (3D) reconstruction of forest tree species that a...
Trees are of great significance throughout the world, both in urban scenes and in natural environmen...
3D models of tree geometry are important for numerous studies, such as for urban planning or agricul...
This video shows how a forest plot can be automatically reconstructed from terrestrial laser scannin...
A comprehensive 3-D structural mapping of stem is essential for an accurate 3-D crown modeling and t...
Extracting 3D tree models based on terrestrial laser scanning (TLS) point clouds is a challenging t...
Abstract: Extracting 3D tree models based on terrestrial laser scanning (TLS) point clouds is a chal...
Understanding the structure and dynamics of trees and forest is key in studying the environment and ...
This paper presents a method for fitting cylinders into a point cloud, derived from a terrestrial la...
A method for extracting forest parameters is described in this paper. The 3D point clouds derived fr...
The present study introduces a method to identify tree stems from terrestrial laser scanning (TLS) d...
Terrestrial laser scanning (TLS) is a promising technique for plot-wise acquisition of geometric att...
3D models of tree geometry are important for numerous studies, such as for urban planning or agricul...
The investigation of single trees in a forest is of ecological and economical interest. One aim is t...
Terrestrial laser scanning (TLS) has been adopted as a feasible technique to characterize tree stems...
This study presents a method for three-dimensional (3D) reconstruction of forest tree species that a...
Trees are of great significance throughout the world, both in urban scenes and in natural environmen...
3D models of tree geometry are important for numerous studies, such as for urban planning or agricul...
This video shows how a forest plot can be automatically reconstructed from terrestrial laser scannin...
A comprehensive 3-D structural mapping of stem is essential for an accurate 3-D crown modeling and t...