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Please find on this page a deprecated proposal for netCDf netCDF output from the spectral wave model SWAN.
Elements from the SWAN input file are refered to by INPUT*, elements from the SWAN Fortran code swanmain.for are In the mean time netCDF has been implemented in the SWAN trunk, in a collaboration between Deltares (on behalf or Rijkswaterstaat), BMT Argoss, and TU Delft using somewhat different names (see routine agioncmd.f90). We adopted this page a bit to match the final implementation. There is also a Matlab routine in OpenEarthTools to convert ASCII spectral files into netCDF. Elements from the SWAN input file are here refered to by INPUT*, whereas elements from the SWAN Fortran code swanmain.for are referred to by OV*IVTYPE.
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SWAN netCDF-CF CDL scheme
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// A working draft proposal for CF compliance for netCDF output for SWAN NetCDF SWAN.nc { // proposal for CF and SWAN meta data in SWAN dimensions: time = 1; // time: also put time in for single times mx = 2; // yx: (mxc+1) for 2D grids my = 3; // xc: (myc+1) for 2D grids md direction = 4; // nd: (mdc+1) directions, now called nf90_def_dim msfrequency = 5; // ms: (msc+1) frequencies locpoints = 6; // points: for 1D grids, for UNSTRUC and for squeezed [mx by my] grids variables: // dimensions consistent with ncBrowse, not with native MATLAB netcdf package. // ----------------- COORDINATES ----------------- // Options: // * like SWAN use same variable for CARTESIAN and SPHERICAL, but change attributes // * use different variables for CARTESIAN and SPHERICAL, but change attributes // if INPUT.CGRID.REGular double mx(mx), shape = [2] mx( ; mx(mx):swan_xpc = // INPUT value: optional for input, implemented in output mx(mx):swan_xlenc = // INPUT value: optional for input, implemented in output mx(mx):swan_alpc = // INPUT value: optional for input, implemented in output mx(mx):swan_comment = "mxc+1" mx(mx):_FillValue = // INPUT.CGRID.xexc or OVEXCV{IVTYPE} mx:actual_range = [~ ~] // if INPUT.CGRID.CARTESIAN mx:standard_name = "projected_x_coordinate" mx:units = "m" mx(mx):grid_mapping = "projected_coordinate_system" // elseif INPUT.CGRID.SPHERICAL mx:standard_name = "longitude" mx:units = "degrees_east" mx(mx):grid_mapping = "wgs84" // end ... double my(my), shape = [3] ; my(my):swan_ypc = // INPUT value: optional for input, implemented in output my(my):swan_ylenc = // INPUT value: optional for input, implemented in output my(my):swan_alpc = // INPUT value: optional for input, implemented in output my(my):swan_comment = "myc+1" my(my):_FillValue = // INPUT.CGRID.yexc or OVEXCV{IVTYPE} my:actual_range = [~ ~] // if INPUT.CGRID.CARTESIAN my:standard_name = "projected_y_coordinate" my:units = "m" my(my):grid_mapping = "projected_coordinate_system" // elseif INPUT.CGRID.SPHERICAL my:standard_name = "latitude" my:units = "degrees_north" my(my):grid_mapping = "wgs84" // end ... // - - - - - - - - - - - - - - - - - - - - - - - - - - - // elseif INPUT.CGRID.CURVilinear double XP(mxxc,myyc), shape = [2] ; // idem ... double YP(mxxc,myyc), shape = [3] ; // idem ... // - - - - - - - - - - - - - - - - - - - - - - - - - - - // elseif INPUT.CGRID.UNSTRUCtured double XPx(locpoints), shape = [6] ; // idem ... double YPYyP(locpoints), shape = [6] ; // idem ... // end // ----------------- DIRECTIONS ----------------- double CDIRspread_1d(md), shape = [4] ; CDIRspread_1d:standard_name = "" CDIRspread_1d:units = "degrees_true" CDIRspread_1d:longstandard_name = "spectral Cartesian direction" CDIRsea_surface_wave_from_direction" // sea_surface_wave_to_direction spread_1d:nautical = 1 // or 0 spread_1d.dir1 = // INPUT value: optional for input, implemented in output CDIRspread_1d.dir2 = // INPUT value: optional for input, implemented in output CDIRspread_1d:swan_comment = "mdc+1" ... double NDIR(), shape = [4] NDIR// ----------------- FREQUENCY ----------------- double frequency(ms) ; frequency:standard_name = "wave_frequency" NDIRfrequency:unitslong_name = "frequencies" // absolute = "degrees_true"vs relative, see attribute 'relative_to_current' of energy CDIR:long_namefrequency:units = "spectral nautical directions-1" NDIR.dir1 frequency.swan_flow = // INPUT value: optional for input, implemented in output NDIR.dir2 frequency.swan_fhigh = // INPUT value: optional for input, implemented in output NDIRfrequency:swan_comment = "mdcmsc+1" ... // ----------------- FREQUENCYCOORDINATE SYSTEMS ----------------- double AFREQ(), shape = [5] AFREQ:standard_name = "" AFREQ:long_name = "absolute frequencies" AFREQ:units = "degrees_true" AFREQ.swan_flow = // INPUT value: optional for input, implemented in output AFREQ.swan_fhigh = // INPUT value: optional for input, implemented in output AFREQ:swan_comment = "msc+1" ... double NFREQ(), shape = [5] NFREQ:standard_name = "" NFREQ:long_name = "relative frequencies" NFREQ:units // The projected_coordinate_system information could optionally be added to // either SWAN input or in a post-processing step. // if INPUT.CGRID.CARTESIAN // int32 projected_coordinate_system() ; // projected_coordinate_system:name = "Amersfoort / RD New" // projected_coordinate_system:epsg = 28992 // projected_coordinate_system:epsg_name = "Oblique Stereographic" // projected_coordinate_system:grid_mapping_name = " " // projected_coordinate_system:semi_major_axis = 6.3774e+006 // projected_coordinate_system:semi_minor_axis = 6.35608e+006 // projected_coordinate_system:inverse_flattening = 299.153 // projected_coordinate_system:latitude_of_projection_origin = 52.0922 // projected_coordinate_system:longitude_of_projection_origin = 5.23155 // projected_coordinate_system:false_easting = 155000 // projected_coordinate_system:false_northing = 463000 // projected_coordinate_system:scale_factor_at_projection_origin = 0.999908 // = "degrees_true" NFREQ.swan_flow = // INPUT value: optional forPROJ4 input,REQUIRED implemented in output NFREQ.swan_fhigh = // INPUT value: optional for input, implemented in output NFREQ:swan_comment = "msc+1" ... // ----------------- COORDINATE SYSTEMS ----------------- // The projected_coordinate_system information could optionally be added to // either SWAN input or in a post-processing step. // if INPUT.CGRID.CARTESIAN // int32 projected_coordinate_system([]), shape = [1] // epsg:name = "Amersfoort / RD New" // epsg:epsg = 28992 // epsg:epsg_name = "Oblique Stereographic" // epsgFOR ADAGUC.KNMI.NL // projected_coordinate_system:proj4_params = "+proj=sterea +lat_0=52.15616055555555 +lon_0=5.38763888888889 +k=0.999908 +x_0=155000 +y_0=463000 +ellps=bessel +units=m +towgs84=565.4174,50.3319,465.5542,-0.398957388243134,0.343987817378283,-1.87740163998045,4.0725 +no_defs" // projected_coordinate_system:EPSG_code = "EPSG:28992" // projected_coordinate_system:projection_name = "Dutch rijksdriekhoek system" // - - - - - - - - - - - - - - - - - - - - - - - - - - - // elseif INPUT.CGRID.SPHERICAL // The (lat,lon) coordinates information could be hard-coded into SWAN // with each of the options: CCM, QC or REPEATING int32 wgs84() ; wgs84:name = "WGS 84" wgs84:epsg = 4326 wgs84:grid_mapping_name = " latitude_longitude" // epsgwgs84:semi_major_axis = 6.3774e37814e+006 // epsgwgs84:semi_minor_axis = 6.35608e35675e+006 // epsgwgs84:inverse_flattening = 299298.153 // epsg:latitude_of_projection_origin = 52.0922 // epsg:longitude_of_projection_origin = 5.23155 // epsg:false_easting = 155000 // epsg:false_northing = 463000 // epsg:scale_factor_at_projection_origin = 0.999908 // // optional PROJ4 REQUIRED FOR ADAGUC.KNMI.NL // epsg:proj4_params = "+proj=sterea +lat_0=52.15616055555555 +lon_0=5.38763888888889 +k=0.999908 +x_0=155000 +y_0=463000 +ellps=bessel +units=m +towgs84=565.4174,50.3319,465.5542,-0.398957388243134,0.343987817378283,-1.87740163998045,4.0725 +no_defs" // epsg:EPSG_code = "EPSG:28992" // epsg:projection_name = "Dutch rijksdriekhoek system" // - - - - - - - - - - - - - - - - - - - - - - - - - - - // elseif INPUT.CGRID.SPHERICAL // The (lat,lon) coordinates information could be hard-coded into SWAN // with each of the options: CCM, QC or REPEATING int32 wgs84([]), shape = [1] wgs84:name = "WGS 84" wgs84:epsg = 4326 wgs84:grid_mapping_name = "latitude_longitude" wgs84:semi_major_axis = 6.37814e+006 wgs84:semi_minor_axis = 6.35675e+006 wgs84:inverse_flattening = 298.257 257 // optional PROJ4 REQUIRED FOR ADAGUC.KNMI.NL wgs84:proj4_params = "+proj=longlat +ellps=WGS84 +datum=WGS84 +no_defs " wgs84:EPSG_code = "EPSG:4326" wgs84:projection_name = "Latitude Longitude" wgs84:wkt = "GEOGCS["WGS 84",... // end // ----------------- PRIMARY VARIABLES ----------------- single density(), shape = [~ ~] // density_1d for 1D, density for 2D density:relative_to_current = 0 // or 1, depending on respectively. AFREQ vs RFREQ density:swan_code = // OVKEYW{IVTYPE} = 'VaDens'; density:swan_name = // OVSNAM{IVTYPE} = 'VaDens'; density:long_name = // OVLNAM{IVTYPE} = 'spectral variance density'; density:swan_units = // OVUNIT{IVTYPE} = 'm2/Hz'; density:valid_range(1) = // OVLEXP{IVTYPE} = 0.; density:valid_range(2) = // optional PROJ4 REQUIRED FOR ADAGUC.KNMI.NLOVHEXP{IVTYPE} = 100.; wgs84density:proj4_paramsFillValue = "+proj=longlat +ellps=WGS84 +datum=WGS84 +no_defs " wgs84:EPSG_code = "EPSG:4326" wgs84:projection_name = "Latitude Longitude" wgs84:wkt = "GEOGCS["WGS 84", // end // OVEXCV{IVTYPE} = -99.; // - - - - - - - - - - - - - - - - - PRIMARY- VARIABLES- - - - - - - ----------- single VaDens(), shape = [~ ~] VaDens:swan_code - density:units = // OVKEYWOVCFUD{IVTYPE} = 'VaDens'; NEW TABLE NEEDED INSIDE SWAN VaDensdensity:swanstandard_name = // OVSNAMOVCFSN{IVTYPE} = 'VaDens'; VaDens:long_name = NEW TABLE NEEDED INSIDE SWAN // these do not need to be mapped // OVLNAMOVSVTY{IVTYPE} = 'spectral variance density'; VaDens:swan_units5; // means vector, scalar etc. // these do not =need to be mapped // OVUNITOVLLIM{IVTYPE} = 'm2/Hz'; VaDens:valid_range(1) = 0.; // print width for ascii output // these do not need to be mapped // OVLEXPOVULIM{IVTYPE} = 01000.; VaDens:valid_range(2) = // OVHEXP{IVTYPE} = 100.; VaDens:_FillValue // print width for ascii output // - - - - - - - - - - - - - - - - - - - - - - - - - - - density:actual_range = [~ =~] // add optionally as extra service // OVEXCV{IVTYPE} = -99.; // - - - - - - - - - - - - - - - - - - - - - - - - - - - VaDens:unitsto user density:coordinates = "XP YP" // // if INPUT.CGRID.CARTESIAN density():grid_mapping = "projected_coordinate_system" // elseif INPUT.CGRID.SPHERICAL density():grid_mapping = // OVCFUD{IVTYPE} = ''; NEW TABLE NEEDED INSIDE SWAN VaDens:standard_name = // OVCFSN{IVTYPE} = ''; NEW TABLE NEEDED INSIDE SWAN // these do not need to be mapped // OVSVTY{IVTYPE} = 5; // means vector, scalar etc. // these do not need to be mapped // OVLLIM{IVTYPE} = 0.; // print width for ascii output // these do not need to be mapped // OVULIM{IVTYPE} = 1000.; // print width for ascii output // - - - - - - - - - - - - - - - - - - - - - - - - - - - VaDens:actual_range = [~ ~] // add optionally as extra service to user VaDens:coordinates = "XP YP" // // if INPUT.CGRID.CARTESIAN VaDens():grid_mapping = "projected_coordinate_system" // elseif INPUT.CGRID.SPHERICAL VaDens():grid_mapping = "wgs84" // end // ----------------- GLOBAL META_DATA ----------------- //global Attributes: :title = "INPUT.PROJECT.name,INPUT.PROJECT.nr" :institution = "" :source = "" :history = "Data produced by SWAN version 40.72AB" :references = "" :email = "" :comment = "INPUT.PROJECT.title1,INPUT.PROJECT.title2,INPUT.PROJECT.title3" :version = "" :Conventions = "CF-1.5" :CF:featureType = "Grid" :terms_for_use = "These data can be used freely for research purposes provided that the following source is acknowledged: institution" :disclaimer = "This data is made available in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE." } |
Standard names
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OVKEYW
...
OVSNAM
...
OVLNAM
...
OVUNIT
...
OVSVTY
...
OVLLIM
...
OVULIM
...
OVLEXP
...
OVHEXP
...
OVEXCV
...
OVEXCV
...
XP
...
YP
...
DIST
...
DEP
...
VEL
...
UBOT
...
DISS
...
QB
...
LEA
...
HS
...
TM01
...
RTP
...
DIR
...
PDI
...
TDI
...
DSPR
...
WLEN
...
STEE
...
TRA
...
FOR
...
AAAA
...
EEEE
...
AAAA
...
XC
...
YC
...
WIND
...
FRC
...
RTM01
...
EEEE
...
DHS
...
DRTM01
...
TM02
...
FSPR
...
URMS
...
UFRI
...
ZLEN
...
TAUW
...
CDRAG
...
SETUP
...
TIME
...
TSEC
...
PER
...
RPER
...
HSWE
...
URSELL
...
ASTD
...
TMM10
...
RTMM10
...
DIFPAR
...
TMBOT
...
WATL
...
BOTL
...
TPS
...
DISB
...
DISSU
...
DISW
...
DISM
...
WLENMR
...
KI
...
MUDL
...
VaDens
...
Swind
...
Swcap
...
Sfric
...
Smud
...
Ssurf
...
Snl3
...
Snl4
...
KIMAG
"wgs84"
// end
// ----------------- GLOBAL META_DATA -----------------
//global Attributes:
:title = "INPUT.PROJECT.name,INPUT.PROJECT.nr"
:institution = ""
:source = ""
:history = "Data produced by SWAN version 40.72AB"
:references = ""
:email = ""
:comment = "INPUT.PROJECT.title1,INPUT.PROJECT.title2,INPUT.PROJECT.title3"
:version = ""
:Conventions = "CF-1.5"
:CF:featureType = "Grid"
:terms_of_use = "These data can be used freely for research purposes provided that the following source is acknowledged: institution"
:disclaimer = "This data is made available in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE."
}
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Mapping of SWAN names to CF standard names
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