Forest structural properties are traditionally acquired during extensive fieldwork campaigns. A great potential for time saving is given by remote sensing assisted inventories. Recently great attention has been devoted to individual tree crowns (ITC) level forest inventories. In ITC inventories a key step is the delineation of the tree crowns. Thus, in this study we will compare four methods for the identification of individual tree crowns (ITC) based on high density airborne laser scanning (ALS) and hyperspectral data. The study area is an alpine forest located in Lavarone at 1400 m (Trento Province, Italy) above sea level. 600 trees were inventoried in a plot of 4800 m2, of which 58% Silver Fir (total basal area: 37 m2/ha), 23% European ...
Individual tree delineation using remotely sensed data plays a very important role in precision fore...
The tree crown, with its functionality of assimilation, respiration, and transpiration, is a key for...
Forest structure is strongly related to forest ecology, and it is a key parameter to understand eco...
Forest structural properties are traditionally acquired during extensive fieldwork campaigns. A grea...
In this paper four different delineation methods based on airborne laser scanning (ALS) and hyperspe...
In this paper four different delineation methods based on airborne laser scanning (ALS) and hyperspe...
Structural and spectral information on single trees is needed for diff erent purposes in forest rese...
Fusion of ALS and hyperspectral data can offer a powerful basis for the discrimination of tree speci...
Forest structure is strongly related to forest ecology and it is a key parameter to understand ecosy...
This paper presents a 3D delineation method for airborne laser scanning point cloud. The method is b...
Tree species classification accuracy at the individual tree crown (ITC) level depends on many factor...
Airborne laser scanning (ALS) has recently gained increasing attention in forestry, as ALS data may ...
Hyperspectral and airborne laser scanning (ALS) data can be very useful remote sensing data sources ...
Individual tree crowns may be delineated from airborne laser scanning (ALS) data by segmentation of ...
Individual tree delineation using remotely sensed data plays a very important role in precision fore...
The tree crown, with its functionality of assimilation, respiration, and transpiration, is a key for...
Forest structure is strongly related to forest ecology, and it is a key parameter to understand eco...
Forest structural properties are traditionally acquired during extensive fieldwork campaigns. A grea...
In this paper four different delineation methods based on airborne laser scanning (ALS) and hyperspe...
In this paper four different delineation methods based on airborne laser scanning (ALS) and hyperspe...
Structural and spectral information on single trees is needed for diff erent purposes in forest rese...
Fusion of ALS and hyperspectral data can offer a powerful basis for the discrimination of tree speci...
Forest structure is strongly related to forest ecology and it is a key parameter to understand ecosy...
This paper presents a 3D delineation method for airborne laser scanning point cloud. The method is b...
Tree species classification accuracy at the individual tree crown (ITC) level depends on many factor...
Airborne laser scanning (ALS) has recently gained increasing attention in forestry, as ALS data may ...
Hyperspectral and airborne laser scanning (ALS) data can be very useful remote sensing data sources ...
Individual tree crowns may be delineated from airborne laser scanning (ALS) data by segmentation of ...
Individual tree delineation using remotely sensed data plays a very important role in precision fore...
The tree crown, with its functionality of assimilation, respiration, and transpiration, is a key for...
Forest structure is strongly related to forest ecology, and it is a key parameter to understand eco...