Terrestrial laser scanners (TLS) have the potential to revolutionise measurement of the three-dimensional structure of vegetation canopies for applications in ecology, hydrology and climate change. This potential has been the subject of recent research that has attempted to measure forest biophysical variables from TLS data, and make comparisons with two-dimensional data from hemispherical photography. This research presents a systematic comparison between forest canopy gap fraction estimates derived from TLS measurements and hemispherical photography. The TLS datasets used in the research were obtained between April 2008 and March 2009 at Delamere Forest, Cheshire, UK. The analysis of canopy gap fraction estimates derived from TLS data hig...
Accurate estimates of vegetation structure are important for a large number of applications includin...
Reliable measurements of the 3D distribution of Leaf Area Density (LAD) in forest canopy are crucial...
International audienceReliable measurements of the 3D distribution of Leaf Area Density (LAD) in for...
Terrestrial laser scanners (TLS) have the potential to revolutionise measurement of the three-dimens...
Light detection and ranging (lidar) systems are active sensors capable of creating apermanent three-...
A terrestrial laser scanner (TLS) was used to measure canopy directional gap fraction distribution ...
The directional gap fraction in forest and woodland canopies is the primary information that is used...
Accurate in situ estimates of leaf area index (LAI) are essential for a wide range of ecological stu...
The quantification of forest carbon sequestration is helpful to understand the carbon storage on the...
Leaf area index and canopy gap fraction (GF) provide important information to forest managers regard...
Plot-scale measurements have been the foundation for forest surveys and reporting for over 200 years...
This paper evaluates the potential of a terrestrial laser scanner (TLS) to characterize forest canop...
Background: Laser scanning technology has opened new horizons for the research of forest dynamics, b...
Accurate estimates of vegetation structure are important for a large number of applications includin...
Reliable measurements of the 3D distribution of Leaf Area Density (LAD) in forest canopy are crucial...
International audienceReliable measurements of the 3D distribution of Leaf Area Density (LAD) in for...
Terrestrial laser scanners (TLS) have the potential to revolutionise measurement of the three-dimens...
Light detection and ranging (lidar) systems are active sensors capable of creating apermanent three-...
A terrestrial laser scanner (TLS) was used to measure canopy directional gap fraction distribution ...
The directional gap fraction in forest and woodland canopies is the primary information that is used...
Accurate in situ estimates of leaf area index (LAI) are essential for a wide range of ecological stu...
The quantification of forest carbon sequestration is helpful to understand the carbon storage on the...
Leaf area index and canopy gap fraction (GF) provide important information to forest managers regard...
Plot-scale measurements have been the foundation for forest surveys and reporting for over 200 years...
This paper evaluates the potential of a terrestrial laser scanner (TLS) to characterize forest canop...
Background: Laser scanning technology has opened new horizons for the research of forest dynamics, b...
Accurate estimates of vegetation structure are important for a large number of applications includin...
Reliable measurements of the 3D distribution of Leaf Area Density (LAD) in forest canopy are crucial...
International audienceReliable measurements of the 3D distribution of Leaf Area Density (LAD) in for...