In IVFL-BOKU/sentinel2: Tools to access Sentinel-2 data pre-processed by IVFL, BOKU Vienna
Getting Started
This document aims to provide basic guidance on the use of the sentinel2
package. The following sections will cover the following steps:
- Installation
- User login to get access to the data portal
- Query the database for available Sentinel-2 data products
- Request processing of Sentinel-2 data products for a region of interest
- Download data products
Installation
The package sentinel2 is currently provided via
GitHub. Using the devtools package
allows to easily install sentinel2 directly from GitHub, so make sure you have
devtools installed.
# If you don't have it yet, install 'devtools':
# install.packages('devtools')
library(devtools)
install_github('IVFL-BOKU/sentinel2')
User Login
In order to get access to the data portal, you have to login as a user. If you
are not yet a registered user, please visit s2.boku.eodc.eu
first.
Interaction with the data portal typically requires passing user credentials.
Use S2_initialize_user() to store your user credentials for the active session,
and subsequently use S2_check_access() to verify access to the data portal.
The first lines of your code make look like this:
library(sentinel2)
S2_initialize_user(user = 'test@s2.boku.eodc.eu', password = 'test')
Now we have access to the data portal! We might want to query for available data
now.
Query the database for Sentinel-2 data products
The data portal (s2.boku.eodc.eu) allows to obtain
atmospherically corrected Sentinel-2 data and value added products
(e.g. LAI, AOT, FAPAR, ...) on request. The processed data can be obtain
in several ways, e.g. as granules or single band images.
Query for granules
Suppose you are interested in atmospherically corrected data available at a
specific location (e.g. LONG 48.15, LAT 16.20) for a given period of time
(e.g. '2016-09-01' to '2016-09-30'). We will use S2_query_granule() to see,
if there are already some processed data available:
S2_query_granule(atmCorr = TRUE,
geometry = c(x = 16.20, y = 48.15),
dateMin = '2016-09-15',
dateMax = '2016-09-30')
The data.frame returned contains information about the granules found in the
database, matching the requested criteria. There are several atmospherically
corrected granules available, however, none are owned by the user, as the NA's
in the url column reveal.
Coins are used to gain access to individual granules using its regionId in
S2_buy_granule():
S2_buy_granule(granuleId = 1080943)
(Please take a look at s2.boku.eodc.eu,
if you are unclear about the meaning of the columns and for a complete list of
available query options).
Query for individual images
If we are interested in indivdual bands of Sentinel-2 or readily processed
products such as LAI, we can use S2_query_image():
S2_query_image(band = 'LAI',
utm = '33U',
dateMin = '2016-09-15',
dateMax = '2016-09-30')
Although we found processed data in this case (, because another user has
previously requested processing of the desired area), we expect the returned
data.frame to be empty. Data processing is done on request, so we will need to
place an order first.
Request processing of Sentinel-2 data products for a region of interest
Data processing can be requested via S2_put_roi() for a specific location
(provided e.g. as LAT/LONG point coordinates, a JSON geometry string or objects
of class SpatialPoints or SpatialPolygons) and a given period of time.
To issue a processing request it might be more convenient for you use the web
interface at s2.boku.eodc.eu. Be aware that this
step requires some consciousness regarding the amount of data that is going to
be processed!
Placing an order via S2_put_ROI() could look like this:
S2_put_ROI(geometry = c(x=16, y=48),
regionId = 'testROI',
cloudCovMax = 20,
dateMin = '2016-06-01',
dateMax = '2016-07-01')
Since data processing over large areas is somewhat costly, you need to pay
coins if you issue processing for a region of interest.
S2_user_info() allows to check the budget of the user currently logged in:
S2_user_info()
In this case, we used the 'test@s2.boku.eodc.eu' user. As we can see, all the
coins have already been used!
Download data
Downloading data from the portal can be done using S2_download(). You simply
to pass the url found in the data.frame returned by S2_query_granule() or
S2_query_image() to S2_download() and specify filenames / filepaths to save
the data to.
Downloading granules
Suppose you want to download granules you already own. We can find all granules
owned by a user via S2_query_granule(owned = TRUE):
granules_owned <- S2_query_granule(owned = TRUE)
granules_owned
The column 'granules_owned$url' contains the path to the data we are aboeut to
download. For each element we download we will have to specify a filename. You
can either use your own naming scheme or use the convinience function
S2_generate_names() to automatically create names from the 'data.frame'
returned by the query:
save_names <- S2_generate_names(x = granules_owned)
save_names
Now we can simply download the data (in this case to the current working
directory) like so:
S2_download(url = granules_owned$url, destfile = save_names)
Downloading images
Downloading individual images can be done similarly. First we must find some
images we own. Let's assume we are only interested in Band 8 and restrict the
cloud coverage to be at most 85 percent:
images = S2_query_image(owned = TRUE, band = 'B08', cloudCovMax = 85)
Then we need to create file names for them.
Lets do that by simply pasting acquisition date and file format.
save_names = paste0(images$date, '.', images$format)
Finally we can download the images:
S2_download(images$url, save_names)
Advanced image download
The image API allows you to perform many transformations on the downloded image, e.g.:
- reproject the image
- change the resolution
- change the data format (e.g. to float)
- adjust values range (e.g. divide by 10 so they will fit in the Byte values range)
- crop image to a given geometry
All options are described in the (API doc)[https://s2.boku.eodc.eu/wiki/#!image.md#GET_https://s2.boku.eodc.eu/image/{imageId}].
To apply a transformation you need to pass a corresponding API parameter to the S2_download() function call - see example below.
# find some images and prepare file names
images = S2_query_image(owned = TRUE, band = 'B08', cloudCovMax = 85)
file_names = paste0(images$date, '.tif')
# read the geometry from file
geom = roi_to_jgeom('/my/path/my_geom_file.kml')
# download them:
# - reporojecting to WGS-84 (srid 4326)
# - changing data format to Byte (0-255)
# - dividing all values by 20 so they will better fit the Byte range
# (and setting max value to 254 so it will not overlap with the no data value)
# - cutting to the given geometry
S2_download(images$url, file_names, srid = 4326, dataType = 'Byte', range = 50, max = 254, geometry = geom)
IVFL-BOKU/sentinel2 documentation built on May 13, 2022, 11:15 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Getting Started
This document aims to provide basic guidance on the use of the sentinel2
package. The following sections will cover the following steps:
- Installation
- User login to get access to the data portal
- Query the database for available Sentinel-2 data products
- Request processing of Sentinel-2 data products for a region of interest
- Download data products
Installation
The package sentinel2 is currently provided via
GitHub. Using the devtools package
allows to easily install sentinel2 directly from GitHub, so make sure you have
devtools installed.
# If you don't have it yet, install 'devtools': # install.packages('devtools') library(devtools) install_github('IVFL-BOKU/sentinel2')
User Login
In order to get access to the data portal, you have to login as a user. If you are not yet a registered user, please visit s2.boku.eodc.eu first.
Interaction with the data portal typically requires passing user credentials.
Use S2_initialize_user() to store your user credentials for the active session,
and subsequently use S2_check_access() to verify access to the data portal.
The first lines of your code make look like this:
library(sentinel2) S2_initialize_user(user = 'test@s2.boku.eodc.eu', password = 'test')
Now we have access to the data portal! We might want to query for available data now.
Query the database for Sentinel-2 data products
The data portal (s2.boku.eodc.eu) allows to obtain atmospherically corrected Sentinel-2 data and value added products (e.g. LAI, AOT, FAPAR, ...) on request. The processed data can be obtain in several ways, e.g. as granules or single band images.
Query for granules
Suppose you are interested in atmospherically corrected data available at a
specific location (e.g. LONG 48.15, LAT 16.20) for a given period of time
(e.g. '2016-09-01' to '2016-09-30'). We will use S2_query_granule() to see,
if there are already some processed data available:
S2_query_granule(atmCorr = TRUE, geometry = c(x = 16.20, y = 48.15), dateMin = '2016-09-15', dateMax = '2016-09-30')
The data.frame returned contains information about the granules found in the
database, matching the requested criteria. There are several atmospherically
corrected granules available, however, none are owned by the user, as the NA's
in the url column reveal.
Coins are used to gain access to individual granules using its regionId in
S2_buy_granule():
S2_buy_granule(granuleId = 1080943)
(Please take a look at s2.boku.eodc.eu, if you are unclear about the meaning of the columns and for a complete list of available query options).
Query for individual images
If we are interested in indivdual bands of Sentinel-2 or readily processed
products such as LAI, we can use S2_query_image():
S2_query_image(band = 'LAI', utm = '33U', dateMin = '2016-09-15', dateMax = '2016-09-30')
Although we found processed data in this case (, because another user has
previously requested processing of the desired area), we expect the returned
data.frame to be empty. Data processing is done on request, so we will need to
place an order first.
Request processing of Sentinel-2 data products for a region of interest
Data processing can be requested via S2_put_roi() for a specific location
(provided e.g. as LAT/LONG point coordinates, a JSON geometry string or objects
of class SpatialPoints or SpatialPolygons) and a given period of time.
To issue a processing request it might be more convenient for you use the web interface at s2.boku.eodc.eu. Be aware that this step requires some consciousness regarding the amount of data that is going to be processed!
Placing an order via S2_put_ROI() could look like this:
S2_put_ROI(geometry = c(x=16, y=48), regionId = 'testROI', cloudCovMax = 20, dateMin = '2016-06-01', dateMax = '2016-07-01')
Since data processing over large areas is somewhat costly, you need to pay coins if you issue processing for a region of interest.
S2_user_info() allows to check the budget of the user currently logged in:
S2_user_info()
In this case, we used the 'test@s2.boku.eodc.eu' user. As we can see, all the coins have already been used!
Download data
Downloading data from the portal can be done using S2_download(). You simply
to pass the url found in the data.frame returned by S2_query_granule() or
S2_query_image() to S2_download() and specify filenames / filepaths to save
the data to.
Downloading granules
Suppose you want to download granules you already own. We can find all granules
owned by a user via S2_query_granule(owned = TRUE):
granules_owned <- S2_query_granule(owned = TRUE) granules_owned
The column 'granules_owned$url' contains the path to the data we are aboeut to
download. For each element we download we will have to specify a filename. You
can either use your own naming scheme or use the convinience function
S2_generate_names() to automatically create names from the 'data.frame'
returned by the query:
save_names <- S2_generate_names(x = granules_owned) save_names
Now we can simply download the data (in this case to the current working directory) like so:
S2_download(url = granules_owned$url, destfile = save_names)
Downloading images
Downloading individual images can be done similarly. First we must find some images we own. Let's assume we are only interested in Band 8 and restrict the cloud coverage to be at most 85 percent:
images = S2_query_image(owned = TRUE, band = 'B08', cloudCovMax = 85)
Then we need to create file names for them. Lets do that by simply pasting acquisition date and file format.
save_names = paste0(images$date, '.', images$format)
Finally we can download the images:
S2_download(images$url, save_names)
Advanced image download
The image API allows you to perform many transformations on the downloded image, e.g.:
- reproject the image
- change the resolution
- change the data format (e.g. to float)
- adjust values range (e.g. divide by 10 so they will fit in the Byte values range)
- crop image to a given geometry
All options are described in the (API doc)[https://s2.boku.eodc.eu/wiki/#!image.md#GET_https://s2.boku.eodc.eu/image/{imageId}].
To apply a transformation you need to pass a corresponding API parameter to the S2_download() function call - see example below.
# find some images and prepare file names images = S2_query_image(owned = TRUE, band = 'B08', cloudCovMax = 85) file_names = paste0(images$date, '.tif') # read the geometry from file geom = roi_to_jgeom('/my/path/my_geom_file.kml') # download them: # - reporojecting to WGS-84 (srid 4326) # - changing data format to Byte (0-255) # - dividing all values by 20 so they will better fit the Byte range # (and setting max value to 254 so it will not overlap with the no data value) # - cutting to the given geometry S2_download(images$url, file_names, srid = 4326, dataType = 'Byte', range = 50, max = 254, geometry = geom)
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