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Package website: release | dev
mlr3spatial is the package for spatial objects within the mlr3
ecosystem. The package directly loads data from sf
objects to train any mlr3 learner. The learner can predict on various raster formats (terra
, raster
and stars
) and writes the prediction raster to disk. mlr3spatial reads large raster objects in chunks to avoid memory issues and predicts the chunks in parallel. Check out mlr3spatiotempcv
for spatiotemporal resampling within mlr3.
There are sections about spatial data in the mlr3book.
The gallery features articles about spatial data in the mlr3 ecosystem.
Install the last release from CRAN:
Install the development version from GitHub:
Our goal is to map the land cover of the city of Leipzig. The mlr3spatial
package contains a Sentinel-2 scene of the city of Leipzig and a point vector with training sites. The Sentinel-2 scene is a 10m resolution multispectral image with 7 bands and the NDVI. The points represent samples of the four land cover classes: Forest, Pastures, Urban and Water. We load the raster with the terra
package and the vector with the sf
package in the R Session.
library(mlr3verse)
library(mlr3spatial)
library(terra, exclude = "resample")
library(sf)
leipzig = read_sf(system.file("extdata", "leipzig_points.gpkg", package = "mlr3spatial"), stringsAsFactors = TRUE)
leipzig_raster = rast(system.file("extdata", "leipzig_raster.tif", package = "mlr3spatial"))
The function as_task_classif_st()
converts the sf::sf
object to a spatial classification task.
## <TaskClassifST:leipzig> (97 x 9)
## * Target: land_cover
## * Properties: multiclass
## * Features (8):
## - dbl (8): b02, b03, b04, b06, b07, b08, b11, ndvi
## * Coordinates:
## X Y
## 1: 732480.1 5693957
## 2: 732217.4 5692769
## 3: 732737.2 5692469
## 4: 733169.3 5692777
## 5: 732202.2 5692644
## ---
## 93: 733018.7 5692342
## 94: 732551.4 5692887
## 95: 732520.4 5692589
## 96: 732542.2 5692204
## 97: 732437.8 5692300
The points are located in the district of Lindenau and Zentrum-West.
Now we train a classification tree on the leipzig task.
As a last step, we predict the land cover class for the whole area of interest. For this, we pass the Sentinel-2 scene and the trained learner to the predict_spatial()
function.
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.