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meteoForecast
is a package to access outputs from
Numerical Weather Prediction models both in raster format and as a time
series for a location. The current version works with these
services:
New services will be added gradually, using this collection of meteorological data sources as reference.
This package has been developed in the framework of the European Project PVCROPS.
The development version is available at GitHub:
## install.packages("remotes")
remotes::install_github("oscarperpinan/meteoForecast")
The stable version is available at CRAN:
install.packages('meteoForecast')
library(meteoForecast)
grepVar
will help you to find the variable you need. If
no day is defined, it will return the variables available in the current
version of the service.
grepVar('cloud', service = 'gfs')
[1] "Cloud_water_entire_atmosphere_single_layer"
[2] "Cloud_mixing_ratio_isobaric"
However, you may be interested in the variables available in previous versions. It that is the case, choose a certain day to get this information:
grepVar('cloud', service = 'meteogalicia', day = as.Date('2016-09-15'))
[1] "cft" "cfm" "cfl" "cfh"
You can use the empty string to retrieve the full list of variables provided by the service.
grepVar("", service = 'meteogalicia', complete = TRUE)
Each function admits an argument named service
to choose
the service. After loading meteoForecast
the default
service is Meteogalicia as reported with:
mfService()
[1] "meteogalicia"
You can choose a different service (for the running session) using
mfService
with the name of the service.
mfService('gfs')
Option service changed to gfs
mfService('meteogalicia')
Option service changed to meteogalicia
mfProj4
provides the projection of a service:
mfProj4(‘nam’)
[1] “+proj=lcc +lat_1=25 +lat_0=25 +lon_0=-95 +k_0=1 +x_0=0 +y_0=0 +a=6367470.21484375 +b=6367470.21484375 +units=km +no_defs”
mfExtent
provides the extent of a service (using the
class Extent
defined by the package
raster
):
mfExtent(‘meteogalicia’, resolution = 36)
class : Extent xmin : -49.18259 xmax : 18.789 ymin : 24.03791 ymax : 56.06608
getRaster
gets a forecast output inside a bounding
box and provides a multilayer raster data using the
RasterBrick
class defined in the package
raster
.
wrf <- getRaster(var = 'temp', day = '2014-01-25', run = '00')
library(rasterVis)
levelplot(wrf, layers = 10:21)
getRasterDays
uses getRaster
to
download the results cast each day comprised between start
and end
using the 00UTC run.
wrfDays <- getRasterDays('cft',
start = '2014-01-01',
end = '2014-01-05',
box = c(-2, 35, 2, 40))
hovmoller(wrfDays, par.settings = BTCTheme,
interpolate = TRUE, panel = panel.levelplot.raster)
getPoint
, getPointDays
, and
getPointRuns
get data for a certain location and produce a
time series using the zoo
class.
getPoint
## temperature (Kelvin) forecast from meteogalicia
tempK <- getPoint(c(0, 40), vars = 'temp')
## Cell does not coincide exactly with request
attr(tempK, 'lat')
attr(tempK, 'lon')
## Units conversion
tempC <- tempK - 273
xyplot(tempC)
getPointDays
## Time sequence
radDays <- getPointDays(c(0, 40), start = '2013-01-01',
end = '2013-01-15')
xyplot(radDays)
getPointRuns
## Variability between runs
radRuns <- getPointRuns(c(0, 40), start = '2013-01-01',
end = '2013-01-15')
xyplot(radRuns, superpose = TRUE)
## variability around the average
radAv <- rowMeans(radRuns)
radVar <- sweep(radRuns, 1, radAv)
xyplot(radVar, superpose = TRUE)
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.
Health stats visible at Monitor.