dsm_pitfree: Digital Surface Model Algorithm
In lidR: Airborne LiDAR Data Manipulation and Visualization for Forestry Applications
dsm_pitfree R Documentation
Digital Surface Model Algorithm
Description
This function is made to be used in rasterize_canopy. It implements the pit-free algorithm
developed by Khosravipour et al. (2014), which is based on the computation of a set of classical
triangulations at different heights (see references). The subcircle tweak replaces each
point with 8 points around the original one. This allows for virtual 'emulation' of the fact that
a lidar point is not a point as such, but more realistically a disc. This tweak densifies the point
cloud and the resulting canopy model is smoother and contains fewer 'pits' and empty pixels.
Usage
pitfree(
thresholds = c(0, 2, 5, 10, 15),
max_edge = c(0, 1),
subcircle = 0,
highest = TRUE
)
Arguments
thresholds
numeric. Set of height thresholds according to the Khosravipour et al. (2014) algorithm
description (see references)
max_edge
numeric. Maximum edge length of a triangle in the Delaunay triangulation.
If a triangle has an edge length greater than this value it will be removed. The first number is the value
for the classical triangulation (threshold = 0, see also dsmtin), the second number
is the value for the pit-free algorithm (for thresholds > 0). If max_edge = 0 no trimming
is done (see examples).
subcircle
numeric. radius of the circles. To obtain fewer empty pixels the algorithm
can replace each return with a circle composed of 8 points (see details).
highest
bool. By default it keeps only the highest point per pixel before to triangulate to
decrease computation time. If highest = FALSE all first returns are used.
References
Khosravipour, A., Skidmore, A. K., Isenburg, M., Wang, T., & Hussin, Y. A. (2014).
Generating pit-free canopy height models from airborne lidar. Photogrammetric Engineering &
Remote Sensing, 80(9), 863-872.
See Also
Other digital surface model algorithms:
dsm_point2raster,
dsm_tin
Examples
LASfile <- system.file("extdata", "MixedConifer.laz", package="lidR")
poi = "-drop_z_below 0 -inside 481280 3812940 481330 3812990"
las <- readLAS(LASfile, filter = poi)
col <- height.colors(50)
# Basic triangulation and rasterization of first returns
chm <- rasterize_canopy(las, res = 0.5, dsmtin())
plot(chm, col = col)
# Khosravipour et al. pitfree algorithm
chm <- rasterize_canopy(las, res = 0.5, pitfree(c(0,2,5,10,15), c(0, 1.5)))
plot(chm, col = col)
## Not run:
# Potentially complex concave subset of point cloud
x = c(481340, 481340, 481280, 481300, 481280, 481340)
y = c(3812940, 3813000, 3813000, 3812960, 3812940, 3812940)
las2 = clip_polygon(las,x,y)
plot(las2)
# Because the TIN interpolation is done within the convex hull of the point cloud
# dummy pixels are interpolated that are correct according to the interpolation
# method used, but meaningless in our CHM
chm <- rasterize_canopy(las2, res = 0.5, pitfree(max_edge = c(0, 1.5)))
plot(chm, col = col)
chm = rasterize_canopy(las2, res = 0.5, pitfree(max_edge = c(3, 1.5)))
plot(chm, col = col)
## End(Not run)
lidR documentation built on Sept. 11, 2024, 5:21 p.m.
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| dsm_pitfree | R Documentation |
Digital Surface Model Algorithm
Description
This function is made to be used in rasterize_canopy. It implements the pit-free algorithm
developed by Khosravipour et al. (2014), which is based on the computation of a set of classical
triangulations at different heights (see references). The subcircle tweak replaces each
point with 8 points around the original one. This allows for virtual 'emulation' of the fact that
a lidar point is not a point as such, but more realistically a disc. This tweak densifies the point
cloud and the resulting canopy model is smoother and contains fewer 'pits' and empty pixels.
Usage
pitfree(
thresholds = c(0, 2, 5, 10, 15),
max_edge = c(0, 1),
subcircle = 0,
highest = TRUE
)
Arguments
thresholds |
numeric. Set of height thresholds according to the Khosravipour et al. (2014) algorithm description (see references) |
max_edge |
numeric. Maximum edge length of a triangle in the Delaunay triangulation.
If a triangle has an edge length greater than this value it will be removed. The first number is the value
for the classical triangulation (threshold = 0, see also dsmtin), the second number
is the value for the pit-free algorithm (for thresholds > 0). If |
subcircle |
numeric. radius of the circles. To obtain fewer empty pixels the algorithm can replace each return with a circle composed of 8 points (see details). |
highest |
bool. By default it keeps only the highest point per pixel before to triangulate to decrease computation time. If highest = FALSE all first returns are used. |
References
Khosravipour, A., Skidmore, A. K., Isenburg, M., Wang, T., & Hussin, Y. A. (2014). Generating pit-free canopy height models from airborne lidar. Photogrammetric Engineering & Remote Sensing, 80(9), 863-872.
See Also
Other digital surface model algorithms:
dsm_point2raster,
dsm_tin
Examples
LASfile <- system.file("extdata", "MixedConifer.laz", package="lidR")
poi = "-drop_z_below 0 -inside 481280 3812940 481330 3812990"
las <- readLAS(LASfile, filter = poi)
col <- height.colors(50)
# Basic triangulation and rasterization of first returns
chm <- rasterize_canopy(las, res = 0.5, dsmtin())
plot(chm, col = col)
# Khosravipour et al. pitfree algorithm
chm <- rasterize_canopy(las, res = 0.5, pitfree(c(0,2,5,10,15), c(0, 1.5)))
plot(chm, col = col)
## Not run:
# Potentially complex concave subset of point cloud
x = c(481340, 481340, 481280, 481300, 481280, 481340)
y = c(3812940, 3813000, 3813000, 3812960, 3812940, 3812940)
las2 = clip_polygon(las,x,y)
plot(las2)
# Because the TIN interpolation is done within the convex hull of the point cloud
# dummy pixels are interpolated that are correct according to the interpolation
# method used, but meaningless in our CHM
chm <- rasterize_canopy(las2, res = 0.5, pitfree(max_edge = c(0, 1.5)))
plot(chm, col = col)
chm = rasterize_canopy(las2, res = 0.5, pitfree(max_edge = c(3, 1.5)))
plot(chm, col = col)
## End(Not run)
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