CST_RFWeights: Compute climatological weights for RainFARM stochastic...
In CSTools: Assessing Skill of Climate Forecasts on Seasonal-to-Decadal Timescales
View source: R/CST_RFWeights.R
CST_RFWeights R Documentation
Compute climatological weights for RainFARM stochastic precipitation downscaling
Description
Compute climatological ("orographic") weights from a fine-scale
precipitation climatology file.
Usage
CST_RFWeights(
climfile,
nf,
lon,
lat,
varname = NULL,
fsmooth = TRUE,
lonname = "lon",
latname = "lat",
ncores = NULL
)
Arguments
climfile
Filename of a fine-scale precipitation climatology. The file
is expected to be in NetCDF format and should contain at least one
precipitation field. If several fields at different times are provided,
a climatology is derived by time averaging. Suitable climatology files could
be for example a fine-scale precipitation climatology from a high-resolution
regional climate model (see e.g. Terzago et al. 2018), a local
high-resolution gridded climatology from observations, or a reconstruction
such as those which can be downloaded from the WORLDCLIM
(https://www.worldclim.org) or CHELSA (https://chelsa-climate.org/)
websites. The latter data will need to be converted to NetCDF format before
being used (see for example the GDAL tools (https://gdal.org/). It
could also be an 's2dv_cube' object.
nf
Refinement factor for downscaling (the output resolution is
increased by this factor).
lon
Vector of longitudes.
lat
Vector of latitudes. The number of longitudes and latitudes is
expected to be even and the same. If not the function will perform a
subsetting to ensure this condition.
varname
Name of the variable to be read from climfile.
fsmooth
Logical to use smooth conservation (default) or large-scale
box-average conservation.
lonname
A character string indicating the name of the longitudinal
dimension set as 'lon' by default.
latname
A character string indicating the name of the latitudinal
dimension set as 'lat' by default.
ncores
An integer that indicates the number of cores for parallel
computations using multiApply function. The default value is one.
Value
An object of class 's2dv_cube' containing in matrix data the
weights with dimensions (lon, lat).
Author(s)
Jost von Hardenberg - ISAC-CNR, j.vonhardenberg@isac.cnr.it
References
Terzago, S., Palazzi, E., & von Hardenberg, J. (2018).
Stochastic downscaling of precipitation in complex orography:
A simple method to reproduce a realistic fine-scale climatology.
Natural Hazards and Earth System Sciences, 18(11),
2825-2840. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.5194/nhess-18-2825-2018")}.
Examples
# Create weights to be used with the CST_RainFARM() or RainFARM() functions
# using an external random data in the form of 's2dv_cube'.
obs <- rnorm(2 * 3 * 4 * 8 * 8)
dim(obs) <- c(dataset = 1, member = 2, sdate = 3, ftime = 4, lat = 8, lon = 8)
lon <- seq(10, 13.5, 0.5)
lat <- seq(40, 43.5, 0.5)
coords <- list(lon = lon, lat = lat)
data <- list(data = obs, coords = coords)
class(data) <- "s2dv_cube"
res <- CST_RFWeights(climfile = data, nf = 3, lon, lat, lonname = 'lon',
latname = 'lat', fsmooth = TRUE)
CSTools documentation built on May 29, 2024, 7:21 a.m.
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View source: R/CST_RFWeights.R
| CST_RFWeights | R Documentation |
Compute climatological weights for RainFARM stochastic precipitation downscaling
Description
Compute climatological ("orographic") weights from a fine-scale precipitation climatology file.
Usage
CST_RFWeights(
climfile,
nf,
lon,
lat,
varname = NULL,
fsmooth = TRUE,
lonname = "lon",
latname = "lat",
ncores = NULL
)
Arguments
climfile |
Filename of a fine-scale precipitation climatology. The file is expected to be in NetCDF format and should contain at least one precipitation field. If several fields at different times are provided, a climatology is derived by time averaging. Suitable climatology files could be for example a fine-scale precipitation climatology from a high-resolution regional climate model (see e.g. Terzago et al. 2018), a local high-resolution gridded climatology from observations, or a reconstruction such as those which can be downloaded from the WORLDCLIM (https://www.worldclim.org) or CHELSA (https://chelsa-climate.org/) websites. The latter data will need to be converted to NetCDF format before being used (see for example the GDAL tools (https://gdal.org/). It could also be an 's2dv_cube' object. |
nf |
Refinement factor for downscaling (the output resolution is increased by this factor). |
lon |
Vector of longitudes. |
lat |
Vector of latitudes. The number of longitudes and latitudes is expected to be even and the same. If not the function will perform a subsetting to ensure this condition. |
varname |
Name of the variable to be read from |
fsmooth |
Logical to use smooth conservation (default) or large-scale box-average conservation. |
lonname |
A character string indicating the name of the longitudinal dimension set as 'lon' by default. |
latname |
A character string indicating the name of the latitudinal dimension set as 'lat' by default. |
ncores |
An integer that indicates the number of cores for parallel computations using multiApply function. The default value is one. |
Value
An object of class 's2dv_cube' containing in matrix data the
weights with dimensions (lon, lat).
Author(s)
Jost von Hardenberg - ISAC-CNR, j.vonhardenberg@isac.cnr.it
References
Terzago, S., Palazzi, E., & von Hardenberg, J. (2018). Stochastic downscaling of precipitation in complex orography: A simple method to reproduce a realistic fine-scale climatology. Natural Hazards and Earth System Sciences, 18(11), 2825-2840. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.5194/nhess-18-2825-2018")}.
Examples
# Create weights to be used with the CST_RainFARM() or RainFARM() functions
# using an external random data in the form of 's2dv_cube'.
obs <- rnorm(2 * 3 * 4 * 8 * 8)
dim(obs) <- c(dataset = 1, member = 2, sdate = 3, ftime = 4, lat = 8, lon = 8)
lon <- seq(10, 13.5, 0.5)
lat <- seq(40, 43.5, 0.5)
coords <- list(lon = lon, lat = lat)
data <- list(data = obs, coords = coords)
class(data) <- "s2dv_cube"
res <- CST_RFWeights(climfile = data, nf = 3, lon, lat, lonname = 'lon',
latname = 'lat', fsmooth = TRUE)
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