extract_geom: Extract values from a data cube by spatial or spatiotemporal...
In gdalcubes: Earth Observation Data Cubes from Satellite Image Collections
extract_geom R Documentation
Extract values from a data cube by spatial or spatiotemporal features
Description
Extract pixel values of a data cube from a set of spatial or spatiotemporal features.
Applications include the extraction of full time
series at irregular points, extraction from spatiotemporal points, extraction of
pixel values in polygons, and computing summary statistics over polygons.
Usage
extract_geom(
cube,
sf,
datetime = NULL,
time_column = NULL,
FUN = NULL,
merge = FALSE,
drop_geom = FALSE,
...,
reduce_time = FALSE
)
Arguments
cube
source data cube to extract values from
sf
object of class sf, see sf package
datetime
Date, POSIXt, or character vector containing per feature time information; length must be identical to the number of features in sf
time_column
name of the column in sf containing per feature time information
FUN
optional function to compute per feature summary statistics
merge
logical; return a combined data.frame with data cube values and labels, defaults to FALSE
drop_geom
logical; remove geometries from output, only used if merge is TRUE, defaults to FALSE
...
additional arguments passed to FUN
reduce_time
logical; if TRUE, time is ignored when FUN is applied
Details
The geometry in sf can be of any simple feature type supported by GDAL, including
POINTS, LINES, POLYGONS, MULTI*, and more. If no time information is provided
in one of the arguments datetime or time_column, the full time series
of pixels with regard to the features are returned.
Notice that feature identifiers in the FID column typically correspond to the row names / numbers
of the provided sf object. This can be used to combine the output with the original geometries, e.g., using merge().
with gdalcubes > 0.6.4, this can be done automatically by setting merge=TRUE. In this case, the FID column is dropped from the result.
Pixels with missing values are automatically dropped from the result. It is hence not
guaranteed that the result will contain rows for all input features.
Features are automatically reprojected if the coordinate reference system differs from the data cube.
Extracted values can be aggregated by features by providing a summary function.
If reduce_time is FALSE (the default), the values are grouped
by feature and time, i.e., the result will contain unique combinations of FID and time.
To ignore time and produce a single value per feature, reduce_time can be set to TRUE.
Value
A data.frame with columns FID, time, and data cube bands / variables, see Details
Examples
# if not already done in other examples
if (!file.exists(file.path(tempdir(), "L8.db"))) {
L8_files <- list.files(system.file("L8NY18", package = "gdalcubes"),
".TIF", recursive = TRUE, full.names = TRUE)
create_image_collection(L8_files, "L8_L1TP", file.path(tempdir(), "L8.db"), quiet = TRUE)
}
L8.col = image_collection(file.path(tempdir(), "L8.db"))
v = cube_view(srs="EPSG:32618", dy=1000, dx=1000, dt="P1M",
aggregation = "median", resampling = "bilinear",
extent=list(left=388941.2, right=766552.4,
bottom=4345299, top=4744931,
t0="2018-01-01", t1="2018-04-30"))
L8.cube = raster_cube(L8.col, v)
L8.cube = select_bands(L8.cube, c("B04", "B05"))
L8.ndvi = apply_pixel(L8.cube, "(B05-B04)/(B05+B04)", "NDVI")
L8.ndvi
if (gdalcubes_gdal_has_geos()) {
if (requireNamespace("sf", quietly = TRUE)) {
# create 50 random point locations
x = runif(50, v$space$left, v$space$right)
y = runif(50, v$space$bottom, v$space$top)
t = sample(seq(as.Date("2018-01-01"),as.Date("2018-04-30"), by = 1),50, replace = TRUE)
df = sf::st_as_sf(data.frame(x = x, y = y), coords = c("x", "y"), crs = v$space$srs)
# 1. spatiotemporal points
extract_geom(L8.ndvi, df, datetime = t)
# 2. time series at spatial points
extract_geom(L8.ndvi, df)
# 3. summary statistics over polygons
x = sf::st_read(system.file("nycd.gpkg", package = "gdalcubes"))
zstats = extract_geom(L8.ndvi,x, FUN=median, reduce_time = TRUE, merge = TRUE)
zstats
plot(zstats["NDVI"])
}
}
gdalcubes documentation built on May 29, 2024, 5:11 a.m.
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| extract_geom | R Documentation |
Extract values from a data cube by spatial or spatiotemporal features
Description
Extract pixel values of a data cube from a set of spatial or spatiotemporal features. Applications include the extraction of full time series at irregular points, extraction from spatiotemporal points, extraction of pixel values in polygons, and computing summary statistics over polygons.
Usage
extract_geom(
cube,
sf,
datetime = NULL,
time_column = NULL,
FUN = NULL,
merge = FALSE,
drop_geom = FALSE,
...,
reduce_time = FALSE
)
Arguments
cube |
source data cube to extract values from |
sf |
object of class |
datetime |
Date, POSIXt, or character vector containing per feature time information; length must be identical to the number of features in |
time_column |
name of the column in |
FUN |
optional function to compute per feature summary statistics |
merge |
logical; return a combined data.frame with data cube values and labels, defaults to FALSE |
drop_geom |
logical; remove geometries from output, only used if merge is TRUE, defaults to FALSE |
... |
additional arguments passed to |
reduce_time |
logical; if TRUE, time is ignored when |
Details
The geometry in sf can be of any simple feature type supported by GDAL, including
POINTS, LINES, POLYGONS, MULTI*, and more. If no time information is provided
in one of the arguments datetime or time_column, the full time series
of pixels with regard to the features are returned.
Notice that feature identifiers in the FID column typically correspond to the row names / numbers
of the provided sf object. This can be used to combine the output with the original geometries, e.g., using merge().
with gdalcubes > 0.6.4, this can be done automatically by setting merge=TRUE. In this case, the FID column is dropped from the result.
Pixels with missing values are automatically dropped from the result. It is hence not guaranteed that the result will contain rows for all input features.
Features are automatically reprojected if the coordinate reference system differs from the data cube.
Extracted values can be aggregated by features by providing a summary function.
If reduce_time is FALSE (the default), the values are grouped
by feature and time, i.e., the result will contain unique combinations of FID and time.
To ignore time and produce a single value per feature, reduce_time can be set to TRUE.
Value
A data.frame with columns FID, time, and data cube bands / variables, see Details
Examples
# if not already done in other examples
if (!file.exists(file.path(tempdir(), "L8.db"))) {
L8_files <- list.files(system.file("L8NY18", package = "gdalcubes"),
".TIF", recursive = TRUE, full.names = TRUE)
create_image_collection(L8_files, "L8_L1TP", file.path(tempdir(), "L8.db"), quiet = TRUE)
}
L8.col = image_collection(file.path(tempdir(), "L8.db"))
v = cube_view(srs="EPSG:32618", dy=1000, dx=1000, dt="P1M",
aggregation = "median", resampling = "bilinear",
extent=list(left=388941.2, right=766552.4,
bottom=4345299, top=4744931,
t0="2018-01-01", t1="2018-04-30"))
L8.cube = raster_cube(L8.col, v)
L8.cube = select_bands(L8.cube, c("B04", "B05"))
L8.ndvi = apply_pixel(L8.cube, "(B05-B04)/(B05+B04)", "NDVI")
L8.ndvi
if (gdalcubes_gdal_has_geos()) {
if (requireNamespace("sf", quietly = TRUE)) {
# create 50 random point locations
x = runif(50, v$space$left, v$space$right)
y = runif(50, v$space$bottom, v$space$top)
t = sample(seq(as.Date("2018-01-01"),as.Date("2018-04-30"), by = 1),50, replace = TRUE)
df = sf::st_as_sf(data.frame(x = x, y = y), coords = c("x", "y"), crs = v$space$srs)
# 1. spatiotemporal points
extract_geom(L8.ndvi, df, datetime = t)
# 2. time series at spatial points
extract_geom(L8.ndvi, df)
# 3. summary statistics over polygons
x = sf::st_read(system.file("nycd.gpkg", package = "gdalcubes"))
zstats = extract_geom(L8.ndvi,x, FUN=median, reduce_time = TRUE, merge = TRUE)
zstats
plot(zstats["NDVI"])
}
}
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