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Datasource name | Datasource code (ID) | Type | Original Interval | Available Parameter(s) [parameter code] | Remarks |
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Harmonie | Knmi.Harmonie | Model Grid, forecast | 1 hour | Air Pressure [AirPressure] | |
HiRLAM | Knmi.Hirlam | Model Grid, forecast | 1 hour | Air Pressure [AirPressure] | |
KNMI AWS 10 Minutes | Knmi.AwsTenMinutes | Scalar, observed | 10 minute | Air Pressure [AirPressure] | |
KNMI Evaporation (From Meteobase) | Knmi.FromMeteobase.Evaporation | Scalar, observed | 1 day | Evaporation [Evaporation] | |
KNMI Reference Evaporation | Knmi.Evaporation | Scalar, observed | 1 day | Evaporation [Evaporation] | |
KNMI Iris Stations | Knmi.IrisValidated | Scalar, observed | 1 day | Precipitation [P] | |
KNMI Naval Reports | Knmi.Naval.Forecasts | Report, observed | 1 day | Naval reports for warnings and forecasts [Naval.Reports] | |
KNMI Radar Corrected B (Near-Real time) | Knmi.Radar.CorrectedB | Grid, radar | 5 minute | Precipitation [P] | Grid definition required in grids.xml. See below for the configuration example. |
KNMI Radar Corrected C2 (After) | Knmi.Radar.CorrectedC2 | Grid, radar | 5 minute | Precipitation [P] | Grid definition required in grids.xml. See below for the configuration example. |
KNMI Radar Corrected D2 (Re-analysis) | Knmi.Radar.CorrectedD2 | Grid, radar | 5 minute | Precipitation [P] | Grid definition required in grids.xml. See below for the configuration example. |
KNMI Radar Uncorrected (Real time) | Knmi.Radar.Uncorrected | Grid, radar | 5 minute | Precipitation [P] | Grid definition required in grids.xml. See below for the configuration example. |
KNMI Regional EPS | Knmi.RegionalEps | Ensemble Scalar, forecast | 6 hour | Dewpoint Temperature [DPT] | Note that the ensemble members 1-50 are the real ensemble, while member 51 and 52 are the control and deterministic runs. So it is advised to store the ensemble in a temporary ensembleId and to postprocess the members 1-50 to the real ensemble. |
KNMI Synops | Knmi.Synops | Scalar, observed | 1 hour | Air Pressure [AirPressure] | |
KNMI Synops (From Meteobase) | Knmi.FromMeteobase.Synops | Scalar, observed | 1 hour | Precipitation [P] | |
KNMI Waqua TS | Knmi.WaquaTs | Model Scalar, forecast | 10 minute | Astronomical Tide [AstronomicalTide] | |
KNMI Weather Warnings | Knmi.Warnings | Warning, observed | 1 hour | Heat warning [Warning.Heat] | |
KNMI Water Setup EPS | Knmi.WaterSetupEps | Ensemble Scalar, forecast | 6 hour | Water Surge [WaterSurge] | |
Meteobase Makkink Evaporation | Meteobase.Evaporation.Makkink | Grid, observed | 1 day | Evaporation [Evaporation] | |
Meteobase Pennman-Monteith Evaporation | Meteobase.Evaporation.PennmanMonteith | Grid, observed | 1 day | Evaporation [Evaporation] | |
Meteobase Precipitation | Meteobase.Precipitation | Grid, observed | 1 day | Precipitation [P] |
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Available Parameter(s) [parameter code]
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Grid definition required in grids.xml.
See below for the configuration example.
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Radar Corrected B (Near-real time)
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Radar Corrected C2 (After)
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Radar Corrected D2 (Re-analysis)
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Ensemble
scalar
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Dew Point Temperature [DPT]
Maximum Temperature 2m above ground [TMAX]
Minimum temperature 2 m above ground [TMIN]
Precipitation [P]
Snow Depth [SnowDepth]
Temperature 2m above ground [TMP]
Total Cloud Cover [TCDC]
U-Component of Wind 10m above ground [UGRD:10m]
V-Component of Wind 10m above ground [VGRD:10m]
Wind Direction [WindDirection]
Wind Speed [WindSpeed]
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Note that the ensemble members 1-50 are
the real ensemble, while member 51 and 52
are the control and deterministic runs.
So it is advised to store the ensemble in a
temporary ensembleId and to postprocess
the members 1-50 to the real ensemble.
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Model Grid
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Air Pressure [AirPressure]
Dew Point Temperature [DPT]
Global Radiation Flux [GlobalRadFlux]
High Cloud Cover [HighCloudCover]
Large Scale Precipitation [LargeScaleP]
Latent Heat Flux [LatHeatFlux]
Low Cloud Cover [LowCloudCover]
Medium Cloud Cover [MediumCloudCover]
Net Longwave Radiation Flux [NetLwRadFlux]
Net Shortwave Radiation Flux [NetSwRadFlux]
Sensible Heat Flux [SensHeatFlux]
Snow Depth [SnowDepth]
Temperature 2 m above ground [TMP]
Total Cloud Cover [TCDC]
Total Precipitation [APCP]
U-Component of Wind 10m above ground [UGRD:10m]
V-Component of Wind 10m above ground [VGRD:10m]
Water Equivalent of Accum. Snow Depth [WaterEqSnowDepth].
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Tested.
Grids details are recognized from the definition by WIWB (through NetCDF files)
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Heat warning [Warning.Heat]
Rain warning [Warning.Rain]
Slipperiness and snow warning [Warning.Slipperiness.Snow]
Storm warning [Warning.Storm]
Vision warning [Warning.Vision]
Whirlwind and waterspout warning [Warning.Whirlwind.Waterspout]
Wind Warning [Warning.Wind]
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Astronomical Tide [AstronomicalTide]
Observations from WAQC_ODC [WaquaTs.Obs]
Total Water Level [TotalWaterLevel]
Water Surge [WaterSurge]
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Air Pressure [AirPressure]
Dew Point Temperature [DPT]
Horizontal Visibility [HorizontalVisibility]
Maximum Wind Speed [MaximumWindSpeed]
Precipitation [P]
Precipitation Duration [PrecipitationDuration]
Relative Humidity [RH]
Solar Radiation [Radiation.Solar]
Temperature [TMP]
Temperature 1.5m [TMP:1.5m]
Total Cloud Cover [TCDC]
Wind Direction [WindDirection]
Wind Speed [WindSpeed]
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Meteobase Makkink Evaporation
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Meteobase Makkink Evaporation
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Meteobase Precipitation
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Aggregated products
All data sources as in the table above have their original interval. If you want to import an aggregated product, the WIWB API supports that. You can aggregate every product with a multiplier of its original interval. The <timestep> configured in the Delft-FEWS import moduleInstance of that datasource will be interpreted whether you want to import the original or an aggregated product. E.g. the KNMI Radar products have an original interval of 5 minutes, so aggregation options are 10 minutes (2 x 5 minutes), 15 minutes (3 x 5 minutes) etc. As mentioned, the <timestep> definition in Delft-FEWS will be leading. Disaggregating is not supported.
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