Your search keyword '"stem traits"' showing total 3 results

1. Efficient Calculation Method for Tree Stem Traits from Large-Scale Point Clouds of Forest Stands

Author

Hiroshi Masuda, Yuichiro Hiraoka, Kazuto Saito, Shinsuke Eto, Michinari Matsushita, and Makoto Takahashi

Subjects

forest survey, point cloud, sectional shapes, stem traits, terrestrial laser scanning (TLS), Science

Abstract

With the use of terrestrial laser scanning (TLS) in forest stands, surveys are now equipped to obtain dense point cloud data. However, the data range, i.e., the number of points, often reaches the billions or even higher, exceeding random access memory (RAM) limits on common computers. Moreover, the processing time often also extends beyond acceptable processing lengths. Thus, in this paper, we present a new method of efficiently extracting stem traits from huge point cloud data obtained by TLS, without subdividing or downsampling the point clouds. In this method, each point cloud is converted into a wireframe model by connecting neighboring points on the same continuous surface, and three-dimensional points on stems are resampled as cross-sectional points of the wireframe model in an out-of-core manner. Since the data size of the section points is much smaller than the original point clouds, stem traits can be calculated from the section points on a common computer. With the study method, 1381 tree stems were calculated from 3.6 billion points in ~20 min on a common computer. To evaluate the accuracy of this method, eight targeted trees were cut down and sliced at 1-m intervals; actual stem traits were then compared to those calculated from point clouds. The experimental results showed that the efficiency and accuracy of the proposed method are sufficient for practical use in various fields, including forest management and forest research.

Published

2021

2. Efficient Calculation Method for Tree Stem Traits from Large-Scale Point Clouds of Forest Stands

Author

Kazuto Saito, Makoto Takahashi, Shinsuke Eto, Michinari Matsushita, Yuichiro Hiraoka, and Hiroshi Masuda

Subjects

Surface (mathematics), 010504 meteorology & atmospheric sciences, Computer science, Science, Forest management, 0211 other engineering and technologies, Point cloud, forest survey, Scale (descriptive set theory), Terrestrial laser scanning, 02 engineering and technology, point cloud, sectional shapes, stem traits, terrestrial laser scanning (TLS), 01 natural sciences, Upsampling, Tree (data structure), Range (statistics), General Earth and Planetary Sciences, Algorithm, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences

Abstract

With the use of terrestrial laser scanning (TLS) in forest stands, surveys are now equipped to obtain dense point cloud data. However, the data range, i.e., the number of points, often reaches the billions or even higher, exceeding random access memory (RAM) limits on common computers. Moreover, the processing time often also extends beyond acceptable processing lengths. Thus, in this paper, we present a new method of efficiently extracting stem traits from huge point cloud data obtained by TLS, without subdividing or downsampling the point clouds. In this method, each point cloud is converted into a wireframe model by connecting neighboring points on the same continuous surface, and three-dimensional points on stems are resampled as cross-sectional points of the wireframe model in an out-of-core manner. Since the data size of the section points is much smaller than the original point clouds, stem traits can be calculated from the section points on a common computer. With the study method, 1381 tree stems were calculated from 3.6 billion points in ~20 min on a common computer. To evaluate the accuracy of this method, eight targeted trees were cut down and sliced at 1-m intervals; actual stem traits were then compared to those calculated from point clouds. The experimental results showed that the efficiency and accuracy of the proposed method are sufficient for practical use in various fields, including forest management and forest research.

Published

2021

3. Efficient Calculation Method for Tree Stem Traits from Large-Scale Point Clouds of Forest Stands.

Author

Masuda, Hiroshi, Hiraoka, Yuichiro, Saito, Kazuto, Eto, Shinsuke, Matsushita, Michinari, and Takahashi, Makoto

Subjects

*POINT cloud, *CLOUD forests, *FOREST management, *RANDOM access memory, *FOREST surveys

Abstract

With the use of terrestrial laser scanning (TLS) in forest stands, surveys are now equipped to obtain dense point cloud data. However, the data range, i.e., the number of points, often reaches the billions or even higher, exceeding random access memory (RAM) limits on common computers. Moreover, the processing time often also extends beyond acceptable processing lengths. Thus, in this paper, we present a new method of efficiently extracting stem traits from huge point cloud data obtained by TLS, without subdividing or downsampling the point clouds. In this method, each point cloud is converted into a wireframe model by connecting neighboring points on the same continuous surface, and three-dimensional points on stems are resampled as cross-sectional points of the wireframe model in an out-of-core manner. Since the data size of the section points is much smaller than the original point clouds, stem traits can be calculated from the section points on a common computer. With the study method, 1381 tree stems were calculated from 3.6 billion points in ~20 min on a common computer. To evaluate the accuracy of this method, eight targeted trees were cut down and sliced at 1-m intervals; actual stem traits were then compared to those calculated from point clouds. The experimental results showed that the efficiency and accuracy of the proposed method are sufficient for practical use in various fields, including forest management and forest research. [ABSTRACT FROM AUTHOR]

Published

2021