GC: Gini coefficient of foliage structural diversity
In leafR: Calculates the Leaf Area Index (LAD) and Other Related Functions
Description
Usage
Arguments
Value
Note
References
Examples
Description
Calculates the Gini coefficient (GC) from individual LIDAR returns (i.e. without voxelization),
as described for the L-coefficient of variation (equivalent to Gini) in Valbuena et al. (2017).
Usage
1
GC(normlas.file, threshold = 1)
Arguments
normlas.file
normalized las file
threshold
numerical, defines the minimum height considered to represent an echo from leaves.
Value
A numeric containing the Gini coefficient (GC) calculated from the normalized LAS file
Note
Valbuena et al. (2012) argues on why Gini is better suited to describe structural complexity the Foliage Height Diversity or the Gini-Simpon index.
References
Valbuena R., Packalen P., Martín-Fernández S., Maltamo M. (2012) Diversity and equitability ordering profiles applied to the study of forest structure. Forest Ecology and Management 276: 185–195. doi: 10.1016/j.foreco.2012.03.036
Valbuena R., Maltamo M., Mehtätalo L., Packalen P. (2017) Key structural features of Boreal forests may be detected directly using L-moments from airborne lidar data. Remote Sensing of Environment. 194: 437–446. doi: 10.1016/j.rse.2016.10.024
Examples
1
2
3
4
# Get the example laz file
normlas.file = system.file("extdata", "lidar_example.laz", package="leafR")
GC(normlas.file, threshold =1)
leafR documentation built on July 5, 2021, 1:07 a.m.
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Description Usage Arguments Value Note References Examples
Description
Calculates the Gini coefficient (GC) from individual LIDAR returns (i.e. without voxelization), as described for the L-coefficient of variation (equivalent to Gini) in Valbuena et al. (2017).
Usage
1 | GC(normlas.file, threshold = 1)
|
Arguments
normlas.file |
normalized las file |
threshold |
numerical, defines the minimum height considered to represent an echo from leaves. |
Value
A numeric containing the Gini coefficient (GC) calculated from the normalized LAS file
Note
Valbuena et al. (2012) argues on why Gini is better suited to describe structural complexity the Foliage Height Diversity or the Gini-Simpon index.
References
Valbuena R., Packalen P., Martín-Fernández S., Maltamo M. (2012) Diversity and equitability ordering profiles applied to the study of forest structure. Forest Ecology and Management 276: 185–195. doi: 10.1016/j.foreco.2012.03.036 Valbuena R., Maltamo M., Mehtätalo L., Packalen P. (2017) Key structural features of Boreal forests may be detected directly using L-moments from airborne lidar data. Remote Sensing of Environment. 194: 437–446. doi: 10.1016/j.rse.2016.10.024
Examples
1 2 3 4 | # Get the example laz file
normlas.file = system.file("extdata", "lidar_example.laz", package="leafR")
GC(normlas.file, threshold =1)
|
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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