Add to ORKGCollection of airborne laser scanner data for forest inventory is becoming a common practice today. To reduce cost when laser data are collected over large areas, the flight altitude or flight speed may be increased, resulting in low pulse density laser data. The effect of using a different pulse density of laser data on estimation accuracy of forest variables was investigated at stand level. Laser data were acquired by the airborne TopEye system at a 1,200-ha forest area located in southern Sweden (58°30′N, 13°40′E). The 70 selected stands were dominated by Norway spruce [Picea abies (L.) Karst.] and Scots pine (Pinus sylvestris L.) with tree height in the range of 6-28 m (mean 19 m) and stem volume in the range of 30-620 m3 ha−1 (average ...
Numerous individual tree detection (ITD) methods have been developed for use with airborne laser sca...
Properties of individual trees can be estimated from airborne laser scanning (ALS) data provided tha...
Forest inventories rely on field plots, the measurement of which is costly and time consuming by man...
Collection of airborne laser scanner data for forest inventory is becoming a common practice today. ...
In this study, we compared a two-phase laser-scanning-based forest inventory of stands versus a trad...
We present two improvements for laser-based forest inventory. The first improvement is based on usin...
Data obtained from airborne laser scanning (ALS) are frequently used for acquiring forest data. Usin...
Airborne laser scanning has been used increasingly for extracting and estimating forest parameters. ...
Silvicultural tending of seedling stands is important to producing quality timber. However, it is ch...
Even if stand inventories based on growth tables have been widely discussed over the last years, thi...
The estimation of forest biophysical attributes improves when airborne laser scanning (ALS) is integ...
During the last fifteen years, laser scanning has emerged as a data source for forest inventory. Air...
International audienceUAV laser scanning (ULS) has the potential to support forest operations since ...
Numerous individual tree detection (ITD) methods have been developed for use with airborne laser sca...
Properties of individual trees can be estimated from airborne laser scanning (ALS) data provided tha...
Forest inventories rely on field plots, the measurement of which is costly and time consuming by man...
Collection of airborne laser scanner data for forest inventory is becoming a common practice today. ...
In this study, we compared a two-phase laser-scanning-based forest inventory of stands versus a trad...
We present two improvements for laser-based forest inventory. The first improvement is based on usin...
Data obtained from airborne laser scanning (ALS) are frequently used for acquiring forest data. Usin...
Airborne laser scanning has been used increasingly for extracting and estimating forest parameters. ...
Silvicultural tending of seedling stands is important to producing quality timber. However, it is ch...
Even if stand inventories based on growth tables have been widely discussed over the last years, thi...
The estimation of forest biophysical attributes improves when airborne laser scanning (ALS) is integ...
During the last fifteen years, laser scanning has emerged as a data source for forest inventory. Air...
International audienceUAV laser scanning (ULS) has the potential to support forest operations since ...
Numerous individual tree detection (ITD) methods have been developed for use with airborne laser sca...
Properties of individual trees can be estimated from airborne laser scanning (ALS) data provided tha...
Forest inventories rely on field plots, the measurement of which is costly and time consuming by man...