A comprehensive 3-D structural mapping of stem is essential for an accurate 3-D crown modeling and tree parameter estimation. Terrestrial laser scanning (TLS) is an effective technology for a comprehensive collection of individual tree level data, compared to destructive and costly field measurements. The performance of 3-D stem modeling techniques is adversely affected by laser shadowing and point-density variations in TLS data. In addition, most of the state-of-the-art techniques perform stem modeling using regular geometric shapes, such as circle, ellipse, and cylinder, which cannot accurately capture the complex 3-D stem geometric shapes. This results in stem modeling errors. In this article, we propose a 3-D stem modeling approach for ...
Stem volume is a key forest inventory attribute characterizing growth and yield of individual trees ...
The utilization of terrestrial laser scanning (TLS) data for forest inventory purposes has increasin...
Accurate measurement of stem diameter is essential to forest inventory. As a millimeter-level measur...
A comprehensive 3-D structural mapping of stem is essential for an accurate 3-D crown modeling and t...
Accurate three dimensional (3D) stem modeling is critical to individual tree analysis. Multi-scan Te...
The prediction of tree stem volumes has conventionally been based on simple field measurements and a...
The present study introduces a method to identify tree stems from terrestrial laser scanning (TLS) d...
Individual tree level inventory performed using high density multi-return airborne Light Detection a...
A method for automatic stem detection and stem profile estimation based on terrestrial laser scannin...
Terrestrial laser scanning (TLS) is a promising technique for plot-wise acquisition of geometric att...
Recently, a new method on tree stem isolation using volumetric image data from terrestrial laser sca...
Extracting 3D tree models based on terrestrial laser scanning (TLS) point clouds is a challenging t...
Extracting 3D tree models based on terrestrial laser scanning (TLS) point clouds is a challenging ta...
ABSTRACT The objective of this work was to obtain the stem volume from 3D-cloud points generated by ...
This paper presents a method for fitting cylinders into a point cloud, derived from a terrestrial la...
Stem volume is a key forest inventory attribute characterizing growth and yield of individual trees ...
The utilization of terrestrial laser scanning (TLS) data for forest inventory purposes has increasin...
Accurate measurement of stem diameter is essential to forest inventory. As a millimeter-level measur...
A comprehensive 3-D structural mapping of stem is essential for an accurate 3-D crown modeling and t...
Accurate three dimensional (3D) stem modeling is critical to individual tree analysis. Multi-scan Te...
The prediction of tree stem volumes has conventionally been based on simple field measurements and a...
The present study introduces a method to identify tree stems from terrestrial laser scanning (TLS) d...
Individual tree level inventory performed using high density multi-return airborne Light Detection a...
A method for automatic stem detection and stem profile estimation based on terrestrial laser scannin...
Terrestrial laser scanning (TLS) is a promising technique for plot-wise acquisition of geometric att...
Recently, a new method on tree stem isolation using volumetric image data from terrestrial laser sca...
Extracting 3D tree models based on terrestrial laser scanning (TLS) point clouds is a challenging t...
Extracting 3D tree models based on terrestrial laser scanning (TLS) point clouds is a challenging ta...
ABSTRACT The objective of this work was to obtain the stem volume from 3D-cloud points generated by ...
This paper presents a method for fitting cylinders into a point cloud, derived from a terrestrial la...
Stem volume is a key forest inventory attribute characterizing growth and yield of individual trees ...
The utilization of terrestrial laser scanning (TLS) data for forest inventory purposes has increasin...
Accurate measurement of stem diameter is essential to forest inventory. As a millimeter-level measur...