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sgsR
is scripted using the terra
package to
handle raster processing, and sf
package for vector
manipulation.
Four primary function verbs exist:
strat_*
Stratification algorithms within sgsR
. These algorithms
use auxiliary raster data (e.g. ALS metric populations) as inputs and
provide stratified areas of interest as outputs. Algorithms are either
supervised (e.g. strat_breaks()
), where the user provides
quantitative values that drive stratifications, or unsupervised
(e.g. strat_quantiles()
), where the user specifies the
desired number of output strata (nStrata
) and
stratification is handled by the algorithm.
sample_*
Sampling algorithms in sgsR
. Depending on the sampling
algorithm, users are able to provide either auxiliary metrics or
stratifications derived from strat_*
functions as inputs. A
number of customizable parameters can be set including the sample size
(nSamp
), a minimum distance threshold
(mindist
) between allocated sample units, and the ability
for the user to define an access network (access
) and
assign minimum (buff_inner
) and maximum
(buff_outer
) buffer distances to constrain sampling
extents.
calculate_*
& extract_*
Additional helper functions that calculate
varying
descriptive / summary statistics and values to use in processing.
extract_*
functions derive metric values from co-located
sample units.
sgsR
uses common words that define algorithm
parameters:
Parameter | Description |
---|---|
mraster |
Metric raster(s) |
sraster |
Stratified raster |
access |
Linear vectors representing access routes |
existing |
Existing sample units |
plot |
Visually displays raster and samples |
mraster
mraster
are input raster(s). All raster data used by
sgsR
must be must be a terra SpatRaster
class.
sraster
sraster
are derived from strat_*
algorithms
(e.g. see strat_quantiles()
below). The function below used
the distribution of mraster$zq90
and stratified data into 4
equally sized strata.
#--- apply kmeans algorithm to metrics raster ---#
sraster <- strat_quantiles(
mraster = mraster$zq90, # use mraster as input for sampling
nStrata = 4, # algorithm will produce 4 strata
plot = TRUE
) # algorithm will plot output
The sraster
output can then become an input parameter
(sraster
) for the sample_strat()
algorithm.
access
One key feature of using some sample_*
functions is its
ability to define access
corridors. Users can supply a road
access
network (must be sf
line objects) and
define buffers around access
where samples should be
excluded and included.
Relevant and applicable parameters when access
is
defined are:
buff_inner
- Can be left as NULL
(default). Inner buffer parameter that defines the distance from
access
where samples cannot be taken (i.e. if you don’t
want samples within 50 m of your access
layer set
buff_inner = 50
).
buff_outer
- Outer buffer parameter that defines the
maximum distance that the samples can be located from
access
(i.e. if you don’t want samples more than 200 meters
from your access
layer set
buff_inner = 200
).
a <- system.file("extdata", "access.shp", package = "sgsR")
#--- load the access vector using the sf package ---#
access <- sf::st_read(a)
#> Reading layer `access' from data source
#> `C:\Users\goodb\AppData\Local\Temp\Rtmp8iA5Id\Rinst214c547c7592\sgsR\extdata\access.shp'
#> using driver `ESRI Shapefile'
#> Simple feature collection with 167 features and 2 fields
#> Geometry type: MULTILINESTRING
#> Dimension: XY
#> Bounding box: xmin: 431100 ymin: 5337700 xmax: 438560 ymax: 5343240
#> Projected CRS: UTM_Zone_17_Northern_Hemisphere
From the plot output we see the first band (zq90
) of the
mraster
with the access
vector overlaid.
%>%
The sgsR package leverages the %>%
operator from the
magrittr package
.
#--- non piped ---#
sraster <- strat_quantiles(
mraster = mraster$zq90, # use mraster as input for sampling
nStrata = 4
) # algorithm will produce 4 strata
existing <- sample_strat(
sraster = sraster, # use mraster as input for sampling
nSamp = 200, # request 200 samples be taken
mindist = 100
) # define that samples must be 100 m apart
extract_metrics(
mraster = mraster,
existing = existing
)
#--- piped ---#
strat_quantiles(mraster = mraster$zq90, nStrata = 4) %>%
sample_strat(., nSamp = 200, mindist = 100) %>%
extract_metrics(mraster = mraster, existing = .)
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.