Title: | Dealing with Multiplatform Satellite Images |
---|---|
Description: | Downloading, customizing, and processing time series of satellite images for a region of interest. 'rsat' functions allow a unified access to multispectral images from Landsat, MODIS and Sentinel repositories. 'rsat' also offers capabilities for customizing satellite images, such as tile mosaicking, image cropping and new variables computation. Finally, 'rsat' covers the processing, including cloud masking, compositing and gap-filling/smoothing time series of images (Militino et al., 2018 <doi:10.3390/rs10030398> and Militino et al., 2019 <doi:10.1109/TGRS.2019.2904193>). |
Authors: | Unai Pérez - Goya [aut, cre] , Manuel Montesino - SanMartin [aut] , Ana F Militino [aut] , Maria Dolores Ugarte [aut] , Marc Weber [rev] (Marc reviewed rsat (v. 0.1.14) for rOpenSci, see <https://github.com/ropensci/software-review/issues/437>), Kelly Hondula [rev] (Kelly reviewed rsat (v. 0.1.14) for rOpenSci, see <https://github.com/ropensci/software-review/issues/437>) |
Maintainer: | Unai Pérez - Goya <[email protected]> |
License: | GPL-3 |
Version: | 0.1.21 |
Built: | 2024-11-27 03:40:29 UTC |
Source: | https://github.com/ropensci/rsat |
Operators acting on vectors, matrices, arrays and lists to extract or replace parts.
## S4 method for signature 'extent_crs,ANY,ANY,ANY' x[i] ## S4 replacement method for signature 'extent_crs,ANY,ANY,ANY' x[i] <- value ## S4 method for signature 'records,ANY,ANY,ANY' x[i] ## S4 replacement method for signature 'records,ANY,ANY,ANY' x[i] <- value
## S4 method for signature 'extent_crs,ANY,ANY,ANY' x[i] ## S4 replacement method for signature 'extent_crs,ANY,ANY,ANY' x[i] <- value ## S4 method for signature 'records,ANY,ANY,ANY' x[i] ## S4 replacement method for signature 'records,ANY,ANY,ANY' x[i] <- value
x |
object from which to extract element(s) or in which to replace element(s). |
i |
numeric argument. The the position of the element to select/modify. |
value |
a |
returns a selected value
Functions to check if an object is a data frame, or coerce it if possible.
## S4 method for signature 'extent_crs' as.data.frame(x) ## S4 method for signature 'records' as.data.frame(x)
## S4 method for signature 'extent_crs' as.data.frame(x) ## S4 method for signature 'records' as.data.frame(x)
x |
Any R object. |
returns a data frame, normally with all row names
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) # coerce the records to rtoi df <- as.data.frame(rcds) # print the dataframe print(df) ## End(Not run)
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) # coerce the records to rtoi df <- as.data.frame(rcds) # print the dataframe print(df) ## End(Not run)
Create records object from data frame
as.records(x) ## S4 method for signature 'data.frame' as.records(x)
as.records(x) ## S4 method for signature 'data.frame' as.records(x)
x |
a |
returns a records objects with the columns values in x
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) # coerce the records to dataframr df <- as.data.frame(rcds) # print the dataframe print(df) # coerce the dataframe to records rcds2 <- as.records(df) # check the conversion identical(rcds,rcds2) ## End(Not run)
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) # coerce the records to dataframr df <- as.data.frame(rcds) # print the dataframe print(df) # coerce the dataframe to records rcds2 <- as.records(df) # check the conversion identical(rcds,rcds2) ## End(Not run)
This is a generic function which combines its arguments.
## S4 method for signature 'extent_crs' c(x, ...) ## S4 method for signature 'records' c(x, ...)
## S4 method for signature 'extent_crs' c(x, ...) ## S4 method for signature 'records' c(x, ...)
x |
a |
... |
additional arguments. |
The default method combines its arguments to form a vector. All arguments are coerced to a common type which is the type of the returned value. All attributes except names are removed.
a combination of 'x' class elements
records
or an rtoi
Get/set the dates from a records
or an rtoi
dates(x) ## S4 method for signature 'records' dates(x) dates(x) <- value ## S4 replacement method for signature 'records' dates(x) <- value ## S4 method for signature 'rtoi' dates(x)
dates(x) ## S4 method for signature 'records' dates(x) dates(x) <- value ## S4 replacement method for signature 'records' dates(x) <- value ## S4 method for signature 'rtoi' dates(x)
x |
a |
value |
the new date to asign |
returns a vector of Date
class
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get a vector of dates includes in rtoi dates(navarre) # get the records rcds <- records(navarre) # coerce the records to dataframr dates(rcds) ## End(Not run)
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get a vector of dates includes in rtoi dates(navarre) # get the records rcds <- records(navarre) # coerce the records to dataframr dates(rcds) ## End(Not run)
Spatial feature (sf
) representing the border of Madrid with
coordinates in the longitude/latitude format.
Spatial feature (sf
) representing the border of Manhattan with
coordinates in the NAD83 format.
records
A function to get or set the api names of an object.
get_api_name(x) ## S4 method for signature 'records' get_api_name(x)
get_api_name(x) ## S4 method for signature 'records' get_api_name(x)
x |
a |
a character vector containing the API names of the
elements in x
.
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) # get a vector with the api name of each records get_api_name(rcds) ## End(Not run)
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) # get a vector with the api name of each records get_api_name(rcds) ## End(Not run)
Extracts the path to the database from an rtoi/package environment. If both, environment and rtoi database are defined the rtoi database is used.
get_database(x) ## S4 method for signature 'rtoi' get_database(x) ## S4 method for signature 'missing' get_database() set_database(x, ...) ## S4 method for signature 'rtoi' set_database(x, value) ## S4 method for signature 'character' set_database(x)
get_database(x) ## S4 method for signature 'rtoi' get_database(x) ## S4 method for signature 'missing' get_database() set_database(x, ...) ## S4 method for signature 'rtoi' set_database(x, value) ## S4 method for signature 'character' set_database(x)
x |
an rtoi object. |
... |
additional arguments. |
value |
character argument. The value for change the database directory of x. |
the database path of an rtoi
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the databse used by navarre get_database(navarre) # set the a new database path set_database(navarre,"new_path") # get the database used by rsat by default get_database() # set the a new database path for the entire environment set_database("new_path") ## End(Not run)
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the databse used by navarre get_database(navarre) # set the a new database path set_database(navarre,"new_path") # get the database used by rsat by default get_database() # set the a new database path for the entire environment set_database("new_path") ## End(Not run)
records
or an rtoi
Get the file path of a records
or an rtoi
get_dir(x) ## S4 method for signature 'records' get_dir(x) ## S4 method for signature 'records' get_order(x) ## S4 method for signature 'rtoi' get_dir(x)
get_dir(x) ## S4 method for signature 'records' get_dir(x) ## S4 method for signature 'records' get_order(x) ## S4 method for signature 'rtoi' get_dir(x)
x |
. |
the file path in the records
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the path of the get_dir(navarre) # get the records rcds <- records(navarre) # gets the relative path to store records data get_dir(rcds) ## End(Not run)
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the path of the get_dir(navarre) # get the records rcds <- records(navarre) # gets the relative path to store records data get_dir(rcds) ## End(Not run)
It returns a character with the url to download the image.
get_download(x)
get_download(x)
x |
a |
download url of a records
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) # coerce the records to rtoi get_download(rcds) ## End(Not run)
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) # coerce the records to rtoi get_download(rcds) ## End(Not run)
records
or an rtoi
Get the slot called order from a records
or an rtoi
get_order(x) get_order(x) <- value ## S4 replacement method for signature 'records' get_order(x) <- value
get_order(x) get_order(x) <- value ## S4 replacement method for signature 'records' get_order(x) <- value
x |
a |
value |
logical argument. The new value for |
the value of called order
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) # gets a boolean get_order(rcds) ## End(Not run)
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) # gets a boolean get_order(rcds) ## End(Not run)
It returns a character vector of urls to preview the data records.
get_preview(x) ## S4 method for signature 'records' get_preview(x) ## S4 method for signature 'records' get_download(x)
get_preview(x) ## S4 method for signature 'records' get_preview(x) ## S4 method for signature 'records' get_download(x)
x |
a |
preview url of a records
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) # get a vector with the preview url of each record get_api_name(rcds) ## End(Not run)
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) # get a vector with the preview url of each record get_api_name(rcds) ## End(Not run)
Get or set the length of vectors (including lists) and factors, and of any other R object for which a method has been defined.
## S4 method for signature 'extent_crs' length(x) ## S4 method for signature 'records' length(x)
## S4 method for signature 'extent_crs' length(x) ## S4 method for signature 'records' length(x)
x |
a |
Length currently returns a non-negative integer of length 1
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) length(rcds) ## End(Not run)
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) length(rcds) ## End(Not run)
A function to get or set the names of an object.
## S4 method for signature 'records' names(x) ## S4 method for signature 'rtoi' names(x) ## S4 replacement method for signature 'rtoi,character' names(x) <- value
## S4 method for signature 'records' names(x) ## S4 method for signature 'rtoi' names(x) ## S4 replacement method for signature 'rtoi,character' names(x) <- value
x |
a |
value |
character argument. The new value for |
a character vector containing the name of
all the names in x
.
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) names(navarre) names(navarre) <- "New name" names(navarre) rcrds <- records(navarre) names(rcrds) ## End(Not run)
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) names(navarre) names(navarre) <- "New name" names(navarre) rcrds <- records(navarre) names(rcrds) ## End(Not run)
records
objectCreate a new records
object from scratch
new_record( sat, name, date, product, download, file_path, path, row, tileid, preview, api_name, order, extent_crs ) ## S4 method for signature ## 'character, ## character, ## Date, ## character, ## character, ## character, ## numeric, ## numeric, ## character, ## character, ## character, ## logical, ## extent_crs' new_record( sat, name, date, product, download, file_path, path, row, tileid, preview, api_name, order, extent_crs ) ## S4 method for signature ## 'character, ## character, ## Date, ## character, ## character, ## character, ## numeric, ## numeric, ## character, ## character, ## character, ## logical, ## missing' new_record( sat, name, date, product, download, file_path, path, row, tileid, preview, api_name, order )
new_record( sat, name, date, product, download, file_path, path, row, tileid, preview, api_name, order, extent_crs ) ## S4 method for signature ## 'character, ## character, ## Date, ## character, ## character, ## character, ## numeric, ## numeric, ## character, ## character, ## character, ## logical, ## extent_crs' new_record( sat, name, date, product, download, file_path, path, row, tileid, preview, api_name, order, extent_crs ) ## S4 method for signature ## 'character, ## character, ## Date, ## character, ## character, ## character, ## numeric, ## numeric, ## character, ## character, ## character, ## logical, ## missing' new_record( sat, name, date, product, download, file_path, path, row, tileid, preview, api_name, order )
sat |
the name of the satellite to which the record belongs. |
name |
the name of the record. |
date |
the date of the record. |
product |
the product. |
download |
the url to download the satellite record. |
file_path |
the saving directory for the satellite record. |
path |
the path of the tiling system. |
row |
the row of the tiling system. |
tileid |
the tile id. |
preview |
the url of the preview of the satellite record. |
api_name |
the api name. |
order |
boolean, defines if the image must be requested or not. |
extent_crs |
extent (used to project the preview). |
records object
## Not run: # create a new record from scrach rcds <- new_record( sat = "modis", name = "mod09a", date = as.Date("2011087", "%Y%j"), product = "product", download = "url/aaa/download", file_path = "file_path", path = 1, row = 1, tileid = "exampleid", preview = "url", api_name = "nasa_inventory", order = FALSE ) rcds ## End(Not run)
## Not run: # create a new record from scrach rcds <- new_record( sat = "modis", name = "mod09a", date = as.Date("2011087", "%Y%j"), product = "product", download = "url/aaa/download", file_path = "file_path", path = 1, row = 1, tileid = "exampleid", preview = "url", api_name = "nasa_inventory", order = FALSE ) rcds ## End(Not run)
rtoi
objectCreates a new rtoi
object
new_rtoi(name, region, rtoi_path, db_path, records, size) ## S4 method for signature 'character,sf,character,missing,missing,missing' new_rtoi(name, region, rtoi_path) ## S4 method for signature 'character,sf,character,character,missing,missing' new_rtoi(name, region, rtoi_path, db_path) ## S4 method for signature 'character,sf,character,character,records,missing' new_rtoi(name, region, rtoi_path, db_path, records) ## S4 method for signature 'character,sf,character,character,records,numeric' new_rtoi(name, region, rtoi_path, db_path, records, size)
new_rtoi(name, region, rtoi_path, db_path, records, size) ## S4 method for signature 'character,sf,character,missing,missing,missing' new_rtoi(name, region, rtoi_path) ## S4 method for signature 'character,sf,character,character,missing,missing' new_rtoi(name, region, rtoi_path, db_path) ## S4 method for signature 'character,sf,character,character,records,missing' new_rtoi(name, region, rtoi_path, db_path, records) ## S4 method for signature 'character,sf,character,character,records,numeric' new_rtoi(name, region, rtoi_path, db_path, records, size)
name |
the name of the region of interest. |
region |
an sf object. |
rtoi_path |
the path to the |
db_path |
the path to the database. |
records |
a records object. |
size |
the size of |
the reference of the rtoi
object
rtoi
objectPlot (a map of) the values of an rtoi
or records
object.
## S4 method for signature 'rtoi,Date' plot( x, y, ..., variable = "rgb", band_name = c("red", "green", "blue"), verbose = FALSE, xsize = 250, ysize = 250 ) ## S4 method for signature 'rtoi,character' plot( x, y, ..., variable = "rgb", product = "ALL", band_name = c("red", "green", "blue"), dates = NULL, verbose = FALSE, xsize = 250, ysize = 250 ) ## S4 method for signature 'records,ANY' plot(x, y, verbose = FALSE, ...) ## S4 method for signature 'rtoi,missing' plot(x, y, verbose = FALSE, ...)
## S4 method for signature 'rtoi,Date' plot( x, y, ..., variable = "rgb", band_name = c("red", "green", "blue"), verbose = FALSE, xsize = 250, ysize = 250 ) ## S4 method for signature 'rtoi,character' plot( x, y, ..., variable = "rgb", product = "ALL", band_name = c("red", "green", "blue"), dates = NULL, verbose = FALSE, xsize = 250, ysize = 250 ) ## S4 method for signature 'records,ANY' plot(x, y, verbose = FALSE, ...) ## S4 method for signature 'rtoi,missing' plot(x, y, verbose = FALSE, ...)
x |
an |
y |
character argument. The valid values are "dates", "preview", or "view". |
... |
additional arguments. |
variable |
character argument. The variable to be plotted. By default, a color (RGB) variable is selected . |
band_name |
character vector argument. Enables false color plots. By
default, usual bands are selected |
verbose |
logical argument. If |
xsize |
the number of samples on the horizontal axis. |
ysize |
the number of samples on the vertical axis. |
product |
character argument. The product name to be plotted. |
dates |
date vector argument. The dates to be plotted. |
tmap
plot.
library(rsat) ## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) print(navarre) # plot the calendar plot(navarre, "dates") # replace with your own "username" and "password" set_credentials("username", "password") # plot the quicklook images before the download # needs credentials to download preview images plot(navarre, y = "preview") # select partially cloud free rcds <- records(navarre) rcds <- rcds[dates(rcds) %in% as.Date(c("20210310", "20210313"), "%Y%m%d")] records(navarre) <- rcds plot(navarre, "preview") file.copy(from=system.file("ex/Pamplona",package="rsat"), to=tempdir(), recursive = TRUE) # plot already mosaicked rtoi ("view" mode) pamplona <- read_rtoi(file.path(tempdir(),"Pamplona")) rsat_list_data(pamplona) # plot can compute the rgb image on the fly from mosaicek bands plot(pamplona, "view", product="mod09ga") # plot on the fly with false color plot(pamplona, "view", product = "mod09ga", band_name = c("nir", "red", "green")) file.copy(from=system.file("ex/PamplonaDerived",package="rsat"), to=tempdir(), recursive = TRUE) # plot already mosaicked rtoi ("view" mode) pamplona.derived <- read_rtoi(file.path(tempdir(),"PamplonaDerived")) rsat_list_data(pamplona.derived) # plot derived variables plot(pamplona.derived, "view", product = "mod09ga", variable = "NDVI") # Set the max and min value in plot plot(pamplona.derived,"view", variable="NDVI", product="mod09ga", zlim=c(0,1)) ## End(Not run)
library(rsat) ## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) print(navarre) # plot the calendar plot(navarre, "dates") # replace with your own "username" and "password" set_credentials("username", "password") # plot the quicklook images before the download # needs credentials to download preview images plot(navarre, y = "preview") # select partially cloud free rcds <- records(navarre) rcds <- rcds[dates(rcds) %in% as.Date(c("20210310", "20210313"), "%Y%m%d")] records(navarre) <- rcds plot(navarre, "preview") file.copy(from=system.file("ex/Pamplona",package="rsat"), to=tempdir(), recursive = TRUE) # plot already mosaicked rtoi ("view" mode) pamplona <- read_rtoi(file.path(tempdir(),"Pamplona")) rsat_list_data(pamplona) # plot can compute the rgb image on the fly from mosaicek bands plot(pamplona, "view", product="mod09ga") # plot on the fly with false color plot(pamplona, "view", product = "mod09ga", band_name = c("nir", "red", "green")) file.copy(from=system.file("ex/PamplonaDerived",package="rsat"), to=tempdir(), recursive = TRUE) # plot already mosaicked rtoi ("view" mode) pamplona.derived <- read_rtoi(file.path(tempdir(),"PamplonaDerived")) rsat_list_data(pamplona.derived) # plot derived variables plot(pamplona.derived, "view", product = "mod09ga", variable = "NDVI") # Set the max and min value in plot plot(pamplona.derived,"view", variable="NDVI", product="mod09ga", zlim=c(0,1)) ## End(Not run)
Prints the credentials for the web services
print_credentials(...) ## S4 method for signature 'ANY' print_credentials()
print_credentials(...) ## S4 method for signature 'ANY' print_credentials()
... |
additional arguments. |
print the credentials asigned in the package environment variable
print_credentials() set_credentials("example", "example", "earthdata") print_credentials()
print_credentials() set_credentials("example", "example", "earthdata") print_credentials()
prints an object and returns it invisibly (via invisible(x)).
## S4 method for signature 'api_dataspace' print(x) ## S4 method for signature 'api_lpdaac' print(x) ## S4 method for signature 'api_usgs' print(x) ## S4 method for signature 'extent_crs' print(x) ## S4 method for signature 'records' print(x) ## S4 method for signature 'rtoi' print(x) ## S4 method for signature 'variables' print(x, ...)
## S4 method for signature 'api_dataspace' print(x) ## S4 method for signature 'api_lpdaac' print(x) ## S4 method for signature 'api_usgs' print(x) ## S4 method for signature 'extent_crs' print(x) ## S4 method for signature 'records' print(x) ## S4 method for signature 'rtoi' print(x) ## S4 method for signature 'variables' print(x, ...)
x |
an object to be printed.. |
... |
additional arguments. |
prints rtoi metadata
## Not run: library(rsat) # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) print(navarre) # get records rcrds <- records(navarre) print(rcrds) ## End(Not run)
## Not run: library(rsat) # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) print(navarre) # get records rcrds <- records(navarre) print(rcrds) ## End(Not run)
records
or an rtoi
Get the name of the product from a records
or an rtoi
product(x) ## S4 method for signature 'records' product(x) ## S4 method for signature 'rtoi' product(x)
product(x) ## S4 method for signature 'records' product(x) ## S4 method for signature 'rtoi' product(x)
x |
a |
the name of the product in the records
Reads an rtoi from the hard drive
read_rtoi(path, ...) ## S4 method for signature 'character' read_rtoi(path, ...)
read_rtoi(path, ...) ## S4 method for signature 'character' read_rtoi(path, ...)
path |
an rtoi object. |
... |
additional arguments. |
rtoi object readed from disk.
## Not run: library(rsat) # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) print(navarre) ## End(Not run)
## Not run: library(rsat) # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) print(navarre) ## End(Not run)
returns the object records from an rtoi.
records(x) ## S4 method for signature 'rtoi' records(x) records(x) <- value ## S4 replacement method for signature 'rtoi,records' records(x) <- value
records(x) ## S4 method for signature 'rtoi' records(x) records(x) <- value ## S4 replacement method for signature 'rtoi,records' records(x) <- value
x |
an rtoi object |
value |
a records object to be set to x. |
a set of records in x rtoi
## Not run: #' library(rsat) # create a copy of navarre file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi navarre <- read_rtoi(file.path(tempdir(),"Navarre")) print(navarre) rcrds <- records(navarre) records(navarre)<-rcrds[1] print(navarre) records(navarre) <- rcrds print(navarre) unlink(file.path(tempdir(),"Navarre"),recursive=TRUE) ## End(Not run)
## Not run: #' library(rsat) # create a copy of navarre file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi navarre <- read_rtoi(file.path(tempdir(),"Navarre")) print(navarre) rcrds <- records(navarre) records(navarre)<-rcrds[1] print(navarre) records(navarre) <- rcrds print(navarre) unlink(file.path(tempdir(),"Navarre"),recursive=TRUE) ## End(Not run)
This class object organizes the attributes of satellite images' metadata from several missions/programs uniformly. Structuring the information facilitates managing, previewing, and downloading data records.
records
works as vector. It accepts usual R methods such as
c
, []
, length()
, subset()
or unique()
.
Each record (vector element) contains several parameters or slots.
The object can be coerced into a data.frame
by
using the function as.data.frame()
. The data.frame
can
be transformed back into a records
with the function
as.records()
.
sat
the name of the satellite.
name
the name of the file.
date
capturing date of the image.
product
name of the data product.
path
the path of the tiling system.
row
the row of the tiling system.
tileid
the tile identification number.
download
the download url.
file_path
the saving directory for the satellite record.
preview
the preview url.
api_name
the name of the API.
order
boolean, whether the image needs to be ordered.
extent_crs
coordinate reference system of the preview.
## Not run: library(rsat) # create a copy of navarre file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi navarre <- read_rtoi(file.path(tempdir(),"Navarre")) rcrds <- records(navarre) modis.rcrds <- rcrds[sat_name(rcrds)%in%"Modis"] ls8.rcrds <- rcrds[sat_name(rcrds)%in%"Landsat-8"] class(modis.rcrds) dates(ls8.rcrds) modis.ls8.records <- c(ls8.rcrds, modis.rcrds) print(modis.ls8.records) ## End(Not run)
## Not run: library(rsat) # create a copy of navarre file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi navarre <- read_rtoi(file.path(tempdir(),"Navarre")) rcrds <- records(navarre) modis.rcrds <- rcrds[sat_name(rcrds)%in%"Modis"] ls8.rcrds <- rcrds[sat_name(rcrds)%in%"Landsat-8"] class(modis.rcrds) dates(ls8.rcrds) modis.ls8.records <- c(ls8.rcrds, modis.rcrds) print(modis.ls8.records) ## End(Not run)
gets the sf that specifies the region of an rtoi.
region(x) ## S4 method for signature 'rtoi' region(x) region(x) <- value ## S4 replacement method for signature 'rtoi,sf' region(x) <- value ## S4 replacement method for signature 'rtoi,'NULL'' region(x) <- value
region(x) ## S4 method for signature 'rtoi' region(x) region(x) <- value ## S4 replacement method for signature 'rtoi,sf' region(x) <- value ## S4 replacement method for signature 'rtoi,'NULL'' region(x) <- value
x |
an rtoi object. |
value |
an sf object to define the region in x. |
the sf class with the region of an rtoi
## Not run: library(rsat) # create a copy of navarre file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the region from rtoi sf.obj <- region(navarre) plot(sf.obj) # asign new region value region(navarre)<-NULL region(navarre)<-sf.obj ## End(Not run)
## Not run: library(rsat) # create a copy of navarre file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the region from rtoi sf.obj <- region(navarre) plot(sf.obj) # asign new region value region(navarre)<-NULL region(navarre)<-sf.obj ## End(Not run)
rtoi
Renames all parameters and folder name of an rtoi
.
rename(x, newname) ## S4 method for signature 'rtoi,character' rename(x, newname)
rename(x, newname) ## S4 method for signature 'rtoi,character' rename(x, newname)
x |
an rtoi object |
newname |
a character class to rename the |
nothing. the changes the internal name of the rtoi
## Not run: myrtoi <- read_rtoi("file_path/rtoir_name") rename(myrtoi, "Navarre_BACK") ## End(Not run)
## Not run: myrtoi <- read_rtoi("file_path/rtoir_name") rename(myrtoi, "Navarre_BACK") ## End(Not run)
The goal of 'rsat' is to help you handling time-series of satellite images from multiple platforms in a local, efficient, and standardized way. The package provides tools to;
Search (run vignette("rsat1_search", package = "rsat")
)
Download (run vignette("rsat2_download", package = "rsat")
)
Customize, and (run vignette("rsat3_customize", package = "rsat")
)
Process (run vignette("rsat4_process", package = "rsat")
)
satellite images from Landsat, MODIS, and Sentinel for a region and time of interest.
The registration in the following online portals is required to get a full access to satellite images with 'rsat';
USGS USGS is the sole science agency for the Department of the Interior of United States. Provide access to Modis Images. More information about EarthData can be found Here.
EarthData: A repository of NASA's earth observation data-sets. More information about EarthData can be found here.
dataspace, a web service giving access to Copernicus' scientific data hub. Please go here to find more details about the data hub.
For convenience, try to use the same username and password for all of them. To satisfy the criteria of all web services make sure that the username is 4 characters long and includes a period, number or underscore. The password must be 12 character long and should include characters with at least one capital letter, and numbers.
If you want to contribute by adding new features or fixing bugs in the package you can do it from our github address: https://github.com/spatialstatisticsupna/rsat Bug report: https://github.com/spatialstatisticsupna/rsat/issues
Create cloud mask from an rtoi
rsat_cloudMask(x, ...) ## S4 method for signature 'rtoi' rsat_cloudMask(x, products = "ALL", verbose = FALSE, overwrite = FALSE, ...)
rsat_cloudMask(x, ...) ## S4 method for signature 'rtoi' rsat_cloudMask(x, products = "ALL", verbose = FALSE, overwrite = FALSE, ...)
x |
rtoi object from which cloud masks are computed. |
... |
additional arguments |
products |
the name of the dataset from which cloud masks are computed. |
verbose |
logical argument. If |
overwrite |
logical argument. If |
nothing. The cloud masks will be save in the hard drive. Use get_stars to get the variables.
## Not run: ## Smooth data in rtoi library(rsat) # create a copy of pamplona in temp file file.copy(from=system.file("ex/Pamplona",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi pamplona <- read_rtoi(file.path(tempdir(),"Pamplona")) rsat_cloudMask(pamplona) rsat_list_data(pamplona) ## End(Not run)
## Not run: ## Smooth data in rtoi library(rsat) # create a copy of pamplona in temp file file.copy(from=system.file("ex/Pamplona",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi pamplona <- read_rtoi(file.path(tempdir(),"Pamplona")) rsat_cloudMask(pamplona) rsat_list_data(pamplona) ## End(Not run)
rtoi
Combines the bands from multispectral satellite products through simple math to highlight a process or material in the image.
rsat_derive(x, variable, ...) ## S4 method for signature 'rtoi,character' rsat_derive( x, variable, product, dates, fun, overwrite = FALSE, verbose = FALSE, suppressWarnings = TRUE, ... )
rsat_derive(x, variable, ...) ## S4 method for signature 'rtoi,character' rsat_derive( x, variable, product, dates, fun, overwrite = FALSE, verbose = FALSE, suppressWarnings = TRUE, ... )
x |
an |
variable |
the name of the variable. |
... |
additional argument for variable deriving |
product |
the name of the product from which the index is computed. |
dates |
a vector of dates being considered (optional). |
fun |
a |
overwrite |
logical argument. If |
verbose |
logical argument. If |
suppressWarnings |
evaluates its expression in a context that ignores all warnings. |
The package contemplates some pre-defined indexes, which can be displayed
using the show_variables()
function. To compute one of those, write
its name in the variable
argument. Custom indexes can be
supplied through the fun
argument. The function should use the
name of the bands as inputs (red, green, blue, nir, swir1, or swir2) and
return a single element. For instance, the Normalized Difference Snow
Index would be;
NDSI = function(green, swir1){ ndsi <- (green - swir1)/(green + swir1) return(ndsi) }
nothing. The derived variables will be save in the hard drive. Use get_stars to get the variables.
## Not run: library(rsat) # create a copy of pamplona in temp file file.copy(from=system.file("ex/Pamplona",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi pamplona <- read_rtoi(file.path(tempdir(),"Pamplona")) rsat_list_data(pamplona) # show prefedined varibles show_variables() rsat_derive(pamplona, "NDVI", product = "mod09ga") # now NDVI is processed rsat_list_data(pamplona) # ad-hoc variable NDSI = function(green, swir1){ ndsi <- (green - swir1)/(green + swir1) return(ndsi) } rsat_derive(pamplona, "NDSI", product = "mod09ga",fun=NDSI) # now NDVI is processed rsat_list_data(pamplona) plot(pamplona, product="mod09ga",variable="NDSI") ## End(Not run)
## Not run: library(rsat) # create a copy of pamplona in temp file file.copy(from=system.file("ex/Pamplona",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi pamplona <- read_rtoi(file.path(tempdir(),"Pamplona")) rsat_list_data(pamplona) # show prefedined varibles show_variables() rsat_derive(pamplona, "NDVI", product = "mod09ga") # now NDVI is processed rsat_list_data(pamplona) # ad-hoc variable NDSI = function(green, swir1){ ndsi <- (green - swir1)/(green + swir1) return(ndsi) } rsat_derive(pamplona, "NDSI", product = "mod09ga",fun=NDSI) # now NDVI is processed rsat_list_data(pamplona) plot(pamplona, product="mod09ga",variable="NDSI") ## End(Not run)
records
or an rtoi
objectThe function saves the raw images in the database or the specified directory. It skips the images that already exist in the database or directory.
rsat_download(x, ...) ## S4 method for signature 'rtoi' rsat_download(x, db_path, verbose = FALSE, parallel = FALSE, ...) ## S4 method for signature 'records' rsat_download(x, db_path, verbose = FALSE, parallel = FALSE, ...)
rsat_download(x, ...) ## S4 method for signature 'rtoi' rsat_download(x, db_path, verbose = FALSE, parallel = FALSE, ...) ## S4 method for signature 'records' rsat_download(x, db_path, verbose = FALSE, parallel = FALSE, ...)
x |
a |
... |
additional arguments. |
db_path |
path to the database. By default, the path
is defined by the |
verbose |
logical argument. If |
parallel |
logical argument. If |
nothing. Downloads the images into your database
## Not run: library(rsat) # create a copy of navarre in temp file file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # assign the path of the database set_database(file.path(tempdir(),"DATABASE")) rsat_download(navarre) rcrds <- records(navarre) rsat_download(rcrds) ## End(Not run)
## Not run: library(rsat) # create a copy of navarre in temp file file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # assign the path of the database set_database(file.path(tempdir(),"DATABASE")) rsat_download(navarre) rcrds <- records(navarre) rsat_download(rcrds) ## End(Not run)
Loads into R a time series of images regarding an rtoi, satellite product, and remote sensing index.
rsat_get_raster(x, p, v, s, ...) ## S4 method for signature 'rtoi' rsat_get_raster(x, p, v, s, ...) rsat_get_SpatRaster(x, p, v, s, ...) ## S4 method for signature 'rtoi' rsat_get_SpatRaster(x, p, v, s, ...) rsat_get_stars(x, p, v, s, ...) ## S4 method for signature 'rtoi' rsat_get_stars(x, p, v, s, ...)
rsat_get_raster(x, p, v, s, ...) ## S4 method for signature 'rtoi' rsat_get_raster(x, p, v, s, ...) rsat_get_SpatRaster(x, p, v, s, ...) ## S4 method for signature 'rtoi' rsat_get_SpatRaster(x, p, v, s, ...) rsat_get_stars(x, p, v, s, ...) ## S4 method for signature 'rtoi' rsat_get_stars(x, p, v, s, ...)
x |
an rtoi. |
p |
a character with the name of the satellite data product. |
v |
a character with the name of the index. |
s |
a character with the name of the stage wanted. |
... |
additional arguments. |
a raster stack.
## Not run: library(rsat) # load example rtoi file.copy(from=system.file("ex/PamplonaDerived",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi pamplona.derived <- read_rtoi(file.path(tempdir(),"PamplonaDerived")) # print available variables rsat_list_data(pamplona.derived) # get RasterStack from raster package suppressWarnings(mod.ndvi.raster <- rsat_get_raster(pamplona.derived, "mod09ga", "NDVI")) plot(mod.ndvi.raster) # get spatraster from terra package mod.ndvi.rast <- rsat_get_SpatRaster(pamplona.derived, "mod09ga", "NDVI") plot(mod.ndvi.rast) # get stars from stars package suppressWarnings(mod.ndvi.stars <- rsat_get_stars(pamplona.derived, "mod09ga", "NDVI")) plot(mod.ndvi.stars) ## get any band in rtoi # list available data rsat_list_data(pamplona.derived) # select band 1: MODIS_Grid_500m_2D_sur_refl_b01_1 mod.ndvi.rast <- rsat_get_SpatRaster(pamplona.derived, "mod09ga", "MODIS_Grid_500m_2D_sur_refl_b01_1") plot(mod.ndvi.rast) ## End(Not run)
## Not run: library(rsat) # load example rtoi file.copy(from=system.file("ex/PamplonaDerived",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi pamplona.derived <- read_rtoi(file.path(tempdir(),"PamplonaDerived")) # print available variables rsat_list_data(pamplona.derived) # get RasterStack from raster package suppressWarnings(mod.ndvi.raster <- rsat_get_raster(pamplona.derived, "mod09ga", "NDVI")) plot(mod.ndvi.raster) # get spatraster from terra package mod.ndvi.rast <- rsat_get_SpatRaster(pamplona.derived, "mod09ga", "NDVI") plot(mod.ndvi.rast) # get stars from stars package suppressWarnings(mod.ndvi.stars <- rsat_get_stars(pamplona.derived, "mod09ga", "NDVI")) plot(mod.ndvi.stars) ## get any band in rtoi # list available data rsat_list_data(pamplona.derived) # select band 1: MODIS_Grid_500m_2D_sur_refl_b01_1 mod.ndvi.rast <- rsat_get_SpatRaster(pamplona.derived, "mod09ga", "MODIS_Grid_500m_2D_sur_refl_b01_1") plot(mod.ndvi.rast) ## End(Not run)
rtoi
Displays the existing products, bands,
and processing levels for a given rtoi
rsat_list_data(x, ...) ## S4 method for signature 'rtoi' rsat_list_data(x, ...)
rsat_list_data(x, ...) ## S4 method for signature 'rtoi' rsat_list_data(x, ...)
x |
an |
... |
additional arguments. |
a data.frame
of the available information.
## Not run: file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi navarre <- read_rtoi(file.path(tempdir(),"Navarre")) print(navarre) # print empty rtoi rsat_list_data(navarre) file.copy(from=system.file("ex/Pamplona",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi pamplona <- read_rtoi(file.path(tempdir(),"Pamplona")) print(pamplona) rtoi.data <- rsat_list_data(pamplona) # print mosaicked bands print(rtoi.data) # print mosaicked bands + derived NDVI file.copy(from=system.file("ex/PamplonaDerived",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi pamplona.derived <- read_rtoi(file.path(tempdir(),"PamplonaDerived")) rsat_list_data(pamplona.derived) ## End(Not run)
## Not run: file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi navarre <- read_rtoi(file.path(tempdir(),"Navarre")) print(navarre) # print empty rtoi rsat_list_data(navarre) file.copy(from=system.file("ex/Pamplona",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi pamplona <- read_rtoi(file.path(tempdir(),"Pamplona")) print(pamplona) rtoi.data <- rsat_list_data(pamplona) # print mosaicked bands print(rtoi.data) # print mosaicked bands + derived NDVI file.copy(from=system.file("ex/PamplonaDerived",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi pamplona.derived <- read_rtoi(file.path(tempdir(),"PamplonaDerived")) rsat_list_data(pamplona.derived) ## End(Not run)
Satellite measurements are divided into indivisible units called tiles. The mosaic function binds and crops the tiles to generate a single image of the region of interest for each date.
rsat_mosaic(x, ...) ## S4 method for signature 'rtoi' rsat_mosaic(x, ...) ## S4 method for signature 'records' rsat_mosaic( x, out_path, db_path, bfilter = c(), warp = "extent", region, overwrite = FALSE, verbose = FALSE, ... )
rsat_mosaic(x, ...) ## S4 method for signature 'rtoi' rsat_mosaic(x, ...) ## S4 method for signature 'records' rsat_mosaic( x, out_path, db_path, bfilter = c(), warp = "extent", region, overwrite = FALSE, verbose = FALSE, ... )
x |
an |
... |
additional arguments. |
out_path |
path to save the mosaicked images. By default, the path
is defined by |
db_path |
path to the database. By default, the path
is defined by |
bfilter |
a vector of bands to. If not supplied, all are used. |
warp |
character. If equal to "extent", it also crops the images
around the |
region |
an sf object. Region for cropping the images around.
By default, the path is defined by |
overwrite |
logical argument. If |
verbose |
boolean. If TRUE show verbose output. Default FALSE |
nothing. Mosaics the downloaded images and stored them on the hard disk
## Not run: library(rsat) # load navarre sf from the package data(ex.navarre) # set the credentials set_credentials("username", "password") # path where the region is stored rtoi.path <- tempdir() # path where downloads are stored db.path <- file.path(tempdir(), "DATABASE") navarre <- new_rtoi( "Navarre", ex.navarre, rtoi.path, db.path ) #' # Landsat-5 rsat_search( region = navarre, product = "LANDSAT_TM_C1", dates = as.Date("1988-08-01") + seq(1, 35) ) rsat_download(navarre) rsat_mosaic(navarre, overwrite = T) rsat_list_data(navarre) ## End(Not run)
## Not run: library(rsat) # load navarre sf from the package data(ex.navarre) # set the credentials set_credentials("username", "password") # path where the region is stored rtoi.path <- tempdir() # path where downloads are stored db.path <- file.path(tempdir(), "DATABASE") navarre <- new_rtoi( "Navarre", ex.navarre, rtoi.path, db.path ) #' # Landsat-5 rsat_search( region = navarre, product = "LANDSAT_TM_C1", dates = as.Date("1988-08-01") + seq(1, 35) ) rsat_download(navarre) rsat_mosaic(navarre, overwrite = T) rsat_list_data(navarre) ## End(Not run)
records
or an rtoi
objectPreview a records
or an rtoi
object
rsat_preview(x, n, ...) ## S4 method for signature 'rtoi,Date' rsat_preview(x, n, lpos = c(3, 2, 1), add.layer = FALSE, verbose = FALSE, ...) ## S4 method for signature 'rtoi,missing' rsat_preview(x, n, lpos = c(3, 2, 1), add.layer = FALSE, verbose = FALSE, ...) ## S4 method for signature 'records,Date' rsat_preview( x, n, lpos = c(3, 2, 1), tmp_dir = file.path(tempdir()), add.layer = FALSE, verbose = FALSE, get.map = TRUE, ... ) ## S4 method for signature 'records,numeric' rsat_preview( x, n, lpos = c(3, 2, 1), tmp_dir = file.path(tempdir()), add.layer = FALSE, verbose = FALSE, get.map = TRUE, ... )
rsat_preview(x, n, ...) ## S4 method for signature 'rtoi,Date' rsat_preview(x, n, lpos = c(3, 2, 1), add.layer = FALSE, verbose = FALSE, ...) ## S4 method for signature 'rtoi,missing' rsat_preview(x, n, lpos = c(3, 2, 1), add.layer = FALSE, verbose = FALSE, ...) ## S4 method for signature 'records,Date' rsat_preview( x, n, lpos = c(3, 2, 1), tmp_dir = file.path(tempdir()), add.layer = FALSE, verbose = FALSE, get.map = TRUE, ... ) ## S4 method for signature 'records,numeric' rsat_preview( x, n, lpos = c(3, 2, 1), tmp_dir = file.path(tempdir()), add.layer = FALSE, verbose = FALSE, get.map = TRUE, ... )
x |
a |
n |
the date expressed as the temporal index in the time series. |
... |
additional arguments |
lpos |
vector argument. Defines the position of the red-green-blue layers to enable a false color visualization. |
add.layer |
logical argument. If |
verbose |
logical argument. If |
tmp_dir |
character argument. The directory where preview images are located. |
get.map |
logical argument. If |
nothing. Previews the region in the viewer.
## Not run: library(rsat) # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) set_credentials("username", "password") set_database(file.path(tempdir(), "DATABASE")) # by default the first date in rtoi is previewed rsat_preview(navarre) preview.dates <- dates(navarre) # use add.layer to preview images of several days rsat_preview(navarre,preview.dates[2],add.layer = TRUE) # you can also preview records rcrds <- records(navarre) rsat_preview(rcrds, n = 1) ## End(Not run)
## Not run: library(rsat) # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) set_credentials("username", "password") set_database(file.path(tempdir(), "DATABASE")) # by default the first date in rtoi is previewed rsat_preview(navarre) preview.dates <- dates(navarre) # use add.layer to preview images of several days rsat_preview(navarre,preview.dates[2],add.layer = TRUE) # you can also preview records rcrds <- records(navarre) rsat_preview(rcrds, n = 1) ## End(Not run)
Show the products accepted by the services
rsat_products(...) ## S4 method for signature 'ANY' rsat_products()
rsat_products(...) ## S4 method for signature 'ANY' rsat_products()
... |
additional arguments. |
prints a list of products
rsat_products()
rsat_products()
Search satellite images concerning a particular location, data product, and
date interval. The function returns a records
object if the
region
is a sf
. If an rtoi
is used, the
function returns nothing and the records are added to the rtoi
.
rsat_search(region, product, ...) ## S4 method for signature 'rtoi,character' rsat_search(region, product, verbose = FALSE, ...) ## S4 method for signature 'sf,character' rsat_search(region, product, verbose = FALSE, ...)
rsat_search(region, product, ...) ## S4 method for signature 'rtoi,character' rsat_search(region, product, verbose = FALSE, ...) ## S4 method for signature 'sf,character' rsat_search(region, product, verbose = FALSE, ...)
region |
a |
product |
a character vector of product names. |
... |
additional arguments for searching |
verbose |
logical argument. If |
MODIS images are found through the
NASA Common
Metadata Repository
(CMR). The inventory of MODIS products can be found
here.
The catalog shows the product short names and detailed information.
MODIS surface reflectance products are named ‘mod09ga’ and ‘myd09ga’ for
Terra and Aqua satellites. By the time rsat
is
released, NASA carries out the maintenance of its website on Wednesdays,
which may cause an error when connecting to their server.
We use ESA's powered API (‘SciHub’) to find Sentinel images. The catalog of Sentinel-2 and -3 products can be found here and here, respectively. Sentinel-2 and -3 surface reflectance product names are referred to as ‘S2MSI2A’ and ‘SY_2_SYN___’.
Landsat images are accessed via the Machine-to-Machine API. Details about the Landsat products can be found here. The names of Landsat products are ‘LANDSAT_TM_C1’, ‘LANDSAT_ETM_C1’, and ‘LANDSAT_8_C1’ for missions 4-5, 7, and 8.
nothing if x is an rtoi, records class if you search a region.
## Not run: library(rsat) set_credentials("username", "password") # search navarre images using sf record.list <- rsat_search( region = ex.navarre, product = "mod09ga", dates = as.Date("2011-01-01") + seq(1, 10, 1) ) # creating a new rtoi rtoi.path <- tempdir() navarre <- new_rtoi( "Navarre", # name of the region ex.navarre, # sf of the region rtoi.path ) # path for the rtoi # see the number of records in navarre print(navarre) # search modis images using rtoi rsat_search( region = navarre, product = "mod09ga", dates = as.Date("2011-01-01") + seq(1, 10, 1) ) # see the number of records in navarre print(navarre) # search landsat images using rtoi rsat_search( region = navarre, product = "LANDSAT_8_C1", dates = as.Date("2016-01-01") + seq(1, 30, 1) ) # see the number of records in navarre print(navarre) # search sentinel-2 (level 1 and level 2) images using rtoi rsat_search( region = navarre, product = c("S2MSI1C", "S2MSI2A"), dates = as.Date("2016-01-01") + seq(1, 30, 1) ) # see the number of records in navarre print(navarre) # search sentinel-3 level-2 images using rtoi rsat_search( region = navarre, product = "OL_2_LFR___", dates = as.Date("2019-01-01") + seq(1, 2, 1) ) # search sentinel-1 level-2 images using rtoi rsat_search( region = navarre, product = "GRD", dates = as.Date("2019-01-01") + seq(1, 2, 1) ) # search Landsat-5 images using rtoi rsat_search( region = navarre, product = "LANDSAT_TM_C1", dates = as.Date("1988-08-01") + seq(1, 35) ) print(navarre) # get all records from rtoi navarre.records <- records(navarre) print(navarre.records) ## End(Not run)
## Not run: library(rsat) set_credentials("username", "password") # search navarre images using sf record.list <- rsat_search( region = ex.navarre, product = "mod09ga", dates = as.Date("2011-01-01") + seq(1, 10, 1) ) # creating a new rtoi rtoi.path <- tempdir() navarre <- new_rtoi( "Navarre", # name of the region ex.navarre, # sf of the region rtoi.path ) # path for the rtoi # see the number of records in navarre print(navarre) # search modis images using rtoi rsat_search( region = navarre, product = "mod09ga", dates = as.Date("2011-01-01") + seq(1, 10, 1) ) # see the number of records in navarre print(navarre) # search landsat images using rtoi rsat_search( region = navarre, product = "LANDSAT_8_C1", dates = as.Date("2016-01-01") + seq(1, 30, 1) ) # see the number of records in navarre print(navarre) # search sentinel-2 (level 1 and level 2) images using rtoi rsat_search( region = navarre, product = c("S2MSI1C", "S2MSI2A"), dates = as.Date("2016-01-01") + seq(1, 30, 1) ) # see the number of records in navarre print(navarre) # search sentinel-3 level-2 images using rtoi rsat_search( region = navarre, product = "OL_2_LFR___", dates = as.Date("2019-01-01") + seq(1, 2, 1) ) # search sentinel-1 level-2 images using rtoi rsat_search( region = navarre, product = "GRD", dates = as.Date("2019-01-01") + seq(1, 2, 1) ) # search Landsat-5 images using rtoi rsat_search( region = navarre, product = "LANDSAT_TM_C1", dates = as.Date("1988-08-01") + seq(1, 35) ) print(navarre) # get all records from rtoi navarre.records <- records(navarre) print(navarre.records) ## End(Not run)
apply_ima
is the implementation of a spatio-temporal method
called Interpolation of Mean Anomalies(IMA) for gap filling and smoothing
satellite data (Militino et al. 2019).
smoothing_images
is the implementation of a spatio temporal method
called image mean anomaly (IMA) for gap filling and smoothing satellite
data (Militino et al. 2019).
rsat_smoothing_images(x, method, ...) ## S4 method for signature 'rtoi,character' rsat_smoothing_images( x, method, product = "ALL", satellite = "ALL", stage = "ALL", variable = "ALL", test.mode = FALSE, ... ) ## S4 method for signature 'SpatRaster,character' rsat_smoothing_images(x, method, ...)
rsat_smoothing_images(x, method, ...) ## S4 method for signature 'rtoi,character' rsat_smoothing_images( x, method, product = "ALL", satellite = "ALL", stage = "ALL", variable = "ALL", test.mode = FALSE, ... ) ## S4 method for signature 'SpatRaster,character' rsat_smoothing_images(x, method, ...)
x |
|
method |
character argument. Defines the method used for processing the images, e.a. "IMA". |
... |
arguments for nested functions:
|
product |
character argument. The name of the product to
be processed. Check the name of the parameter with |
satellite |
character argument. The name of the satellite to
be processed. Check the name of the parameter with
|
stage |
character argument. The name of the processed stage
of the data. Check the name of the parameter with
|
variable |
character argument.The name of the variable to
be processed. Check the name of the parameter with
|
test.mode |
logical argument. If |
This filling/smoothing method was developed by
Militino et al. (2019). IMA fills the gaps
borrowing information from an adaptable temporal neighborhood. Two
parameters determine the size of the neighborhood; the number of days
before and after the target image (nDays
) and the number of previous
and subsequent years (nYears
). Both parameters should be adjusted
based on the temporal resolution of the of the time-series of images. We
recommend that the neighborhood extends over days rather than years, when
there is little resemblance between seasons. Also, cloudy series may require
larger neighborhoods.
IMA gives the following steps; (1) creates a representative image from the
temporal neighborhood of the target image (image to be filled/smoothed) e.g.,
doing the mean, median, etc. for each pixel's time-series (fun
), (2)
the target and representative images are subtracted giving an image of
anomalies, (3) the anomalies falling outside the quantile limits
(aFilter
) are considered outliers and therefore removed, (4) it
aggregates the anomaly image into a coarser resolution (fact
) to
reveal potential spatial dependencies, (5) the procedure fits a spatial
model (thin plate splines or TPS) to the anomalies which is then used to
interpolate the values at the original resolution, and (6) the output
is the sum of the interpolated anomalies and the average image.
a RastespatRaster
with the filled/smoothed images.
Militino AF, Ugarte MD, Perez-Goya U, Genton MG (2019). “Interpolation of the Mean Anomalies for Cloud-Filling in Land Surface Temperature (LST) and Normalized Difference Vegetation Index (NDVI).” IEEE Transactions on Geoscience and Remote Sensing. (Open-Access). http://dx.doi.org/10.1109/TGRS.2019.2904193.
## Not run: ## Smooth data in rtoi library(rsat) require(terra) # create a copy of pamplona in temp file file.copy(from=system.file("ex/PamplonaDerived",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi pamplona <- read_rtoi(file.path(tempdir(),"PamplonaDerived")) rsat_smoothing_images(pamplona, method = "IMA", variable="NDVI" ) rsat_list_data(pamplona) # get smoothed smoothed <- rsat_get_SpatRaster(pamplona,p="mod09ga",v="NDVI",s="IMA") plot(smoothed) # get original original <- rsat_get_SpatRaster(pamplona,p="mod09ga",v="NDVI",s="variables") plot(original) plot(smoothed[[1]]-original[[1]]) ## smooth user defined SpatRaster dataset require(terra) data(ex.ndvi.navarre) # load an example of NDVI time series in Navarre ex.ndvi.navarre <- rast(ex.ndvi.navarre) # the raster stack with the date in julian format as name plot(ex.ndvi.navarre) # smoothin and fill all the time series tiles.mod.ndvi.filled <- rsat_smoothing_images(ex.ndvi.navarre, method = "IMA" ) # show the filled images plot(tiles.mod.ndvi.filled) # plot comparison of the cloud and the filled images tiles.mod.ndvi.comp <- c( ex.ndvi.navarre[[1]], tiles.mod.ndvi.filled[[1]], ex.ndvi.navarre[[2]], tiles.mod.ndvi.filled[[2]] ) plot(tiles.mod.ndvi.comp) ## End(Not run)
## Not run: ## Smooth data in rtoi library(rsat) require(terra) # create a copy of pamplona in temp file file.copy(from=system.file("ex/PamplonaDerived",package="rsat"), to=tempdir(), recursive = TRUE) # load example rtoi pamplona <- read_rtoi(file.path(tempdir(),"PamplonaDerived")) rsat_smoothing_images(pamplona, method = "IMA", variable="NDVI" ) rsat_list_data(pamplona) # get smoothed smoothed <- rsat_get_SpatRaster(pamplona,p="mod09ga",v="NDVI",s="IMA") plot(smoothed) # get original original <- rsat_get_SpatRaster(pamplona,p="mod09ga",v="NDVI",s="variables") plot(original) plot(smoothed[[1]]-original[[1]]) ## smooth user defined SpatRaster dataset require(terra) data(ex.ndvi.navarre) # load an example of NDVI time series in Navarre ex.ndvi.navarre <- rast(ex.ndvi.navarre) # the raster stack with the date in julian format as name plot(ex.ndvi.navarre) # smoothin and fill all the time series tiles.mod.ndvi.filled <- rsat_smoothing_images(ex.ndvi.navarre, method = "IMA" ) # show the filled images plot(tiles.mod.ndvi.filled) # plot comparison of the cloud and the filled images tiles.mod.ndvi.comp <- c( ex.ndvi.navarre[[1]], tiles.mod.ndvi.filled[[1]], ex.ndvi.navarre[[2]], tiles.mod.ndvi.filled[[2]] ) plot(tiles.mod.ndvi.comp) ## End(Not run)
rtoi
)It is a proxy object to store metadata about satellite imagery covering a spatial region over a time period. Images can come from multiple missions/programs and its purpose is to help managing heterogeneous datasets.
An rtoi
object manages two main folders called database and rtoi.
The database is meant to work as a local, generic, and organized archive
of raw satellite data retrieved with the download()
function.
The rtoi folder contains processed information for
a particular region and time of interest. When mosaic()
is called, the function crops and mosaics the relevant raw images from
the database and saves the results in the rtoi folder. This folder also
contains a region.rtoi
file which saves metadata about the
region/time of interest and satellite imagery available.
name
a character with the name of the region of interest.
rtoi_path
a character with the path to the rtoi folder.
region
an sf with the region of interest.
records
the satellite records available for your region and time of interest.
db_path
a character with the path to the database.
## Not run: data(ex.navarre) ## Create an rtoi with database # path where the region is stored rtoi.path <- tempdir() # path where downloads are stored db.path <- file.path(tempdir(), "DATABASE") navarre <- new_rtoi( name = "Navarre_rtoi", region = ex.navarre, rtoi_path = rtoi.path, db_path = db.path ) print(navarre) ## Create an rtoi without database navarre2 <- new_rtoi( name = "Navarre_rtoi2", region = ex.navarre, rtoi_path = rtoi.path ) print(navarre2) ## End(Not run)
## Not run: data(ex.navarre) ## Create an rtoi with database # path where the region is stored rtoi.path <- tempdir() # path where downloads are stored db.path <- file.path(tempdir(), "DATABASE") navarre <- new_rtoi( name = "Navarre_rtoi", region = ex.navarre, rtoi_path = rtoi.path, db_path = db.path ) print(navarre) ## Create an rtoi without database navarre2 <- new_rtoi( name = "Navarre_rtoi2", region = ex.navarre, rtoi_path = rtoi.path ) print(navarre2) ## End(Not run)
records
or an rtoi
Get the name of the satellite(s) from a records
or an rtoi
sat_name(x) ## S4 method for signature 'records' sat_name(x) ## S4 method for signature 'rtoi' sat_name(x)
sat_name(x) ## S4 method for signature 'records' sat_name(x) ## S4 method for signature 'rtoi' sat_name(x)
x |
a |
the name of the satellite
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) # coerce the records to dataframe sat_name(rcds) ## End(Not run)
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) # coerce the records to dataframe sat_name(rcds) ## End(Not run)
Saves the credentials for the web services
set_credentials(user, pass, credential) ## S4 method for signature 'character,character,missing' set_credentials(user, pass) ## S4 method for signature 'character,character,character' set_credentials(user, pass, credential)
set_credentials(user, pass, credential) ## S4 method for signature 'character,character,missing' set_credentials(user, pass) ## S4 method for signature 'character,character,character' set_credentials(user, pass, credential)
user |
character argument. Defines the username of an api platform to search or download images |
pass |
character argument. Defines the password of an api platform to search and download images |
credential |
optional argument to specify the name of the platform. Valid names are earthdata, scihub, scihubs5p, or ALL |
nothing. set the credentials in the package environment variable
print_credentials() set_credentials("example", "example") print_credentials() set_credentials("example", "example", "earthdata") print_credentials()
print_credentials() set_credentials("example", "example") print_credentials() set_credentials("example", "example", "earthdata") print_credentials()
rsat
Displays the satellites and variable method
show_variables(...) ## S4 method for signature 'ANY' show_variables()
show_variables(...) ## S4 method for signature 'ANY' show_variables()
... |
arguments for nesting functions |
prints supported satellites and derived variables information.
show_variables()
show_variables()
Display the object, by printing, plotting or whatever suits its class. This function exists to be specialized by methods. The default method calls showDefault.
## S4 method for signature 'extent_crs' show(object) ## S4 method for signature 'records' show(object) ## S4 method for signature 'rtoi' show(object) ## S4 method for signature 'variables' show(object)
## S4 method for signature 'extent_crs' show(object) ## S4 method for signature 'records' show(object) ## S4 method for signature 'rtoi' show(object) ## S4 method for signature 'variables' show(object)
object |
Any R object |
show returns an invisible NULL.
## Not run: ## load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) ## The method will now be used for automatic printing of navarre navarre ## get records rcds <- records(navarre) rcds ## End(Not run)
## Not run: ## load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) ## The method will now be used for automatic printing of navarre navarre ## get records rcds <- records(navarre) rcds ## End(Not run)
records
or an rtoi
Filter the satellite records of a records
or an rtoi
## S4 method for signature 'records' subset(x, subset, select)
## S4 method for signature 'records' subset(x, subset, select)
x |
a |
subset |
character argument indicating the name of the slot. |
select |
character with the value for subsetting. |
filtered records class
Function used for testing some internal functions in continuous integration.
test_function()
test_function()
test_function()
test_function()
It returns a records
like x
but with duplicate
elements/rows removed.
## S4 method for signature 'records,ANY' unique(x)
## S4 method for signature 'records,ANY' unique(x)
x |
a |
unique elements in records class
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) duplicate.records <- c(rcds[1],rcds[1]) length(duplicate.records) print(duplicate.records) single.record <- unique(duplicate.records) length(single.record) print(single.record) ## End(Not run)
## Not run: # load example rtoi file.copy(from=system.file("ex/Navarre",package="rsat"), to=tempdir(), recursive = TRUE) navarre <- read_rtoi(file.path(tempdir(),"Navarre")) # get the records rcds <- records(navarre) duplicate.records <- c(rcds[1],rcds[1]) length(duplicate.records) print(duplicate.records) single.record <- unique(duplicate.records) length(single.record) print(single.record) ## End(Not run)