Background
Since 2005, ECMWF has generated model-simulated satellite images out to five days from the 00 UTC and 12 UTC cycles of the operational HRES forecast for all operational geostationary satellites (i.e., Meteosat-7, Meteosat-10, MTSAT-2, GOES-13 and GOES-15). The simulated images are archived in MARS as GRIB edition 1 files and have been presented on the ECMWF website as PostScript image files. The forecast-generated satellite images have been based on the resolution of the HRES global model with 3-hourly output from T+0 to T+48 and 6-hourly output to T+120.
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Errors in simulated satellite images can derive from errors in the NWP parameters, on which the simulation is based, the resolution of the model and RTTOV model performance.
Updates to the simulated satellite
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data at IFS cycle 41r2
The simulated satellite images data at IFS cycle 41r2 have been enhanced in various aspects.
- Global satellite images capturing detailed cloud and/or humidity features
The new simulated images satellite data product shows the high-resolution ECMWF forecasts as a weather satellite will see it (e.g. Meteosat-10). The new simulated satellite image product includes latitudes greater than 60° north and south, extending the geostationary-type imagery over high-latitude regions. This is an enhancement with respect to the previous satellite image product which was limited to the Meteosat-10 disk domain.
- Nadir view for every model grid point
The new simulated satellite images data assume a nadir view for every model grid point so the effect of looking slantwise through the atmosphere is neglected. Consequently the atmosphere appears less opaque than with the old simulated images and so lower lying clouds and other features are better presented. - Produced in post-processing within the IFS, with no mapping on satellite grid
This is a technical advantage of the new simulated satellite images data being now produced in the post-processing within the IFS and being part of the research tests for operational release. This is an enhancement with respect to the previous product generated only in the early delivery cycles of the operational suite as they can be now used routinely in ECMWF Research Department experiments to validate model developments which affect the temperature and moisture fields. - Availability of the simulated satellite images data in MARS
The new images product simulated satellite data products are archived in MARS in GRIB edition 2 and are available at every post-processing step, out to 240 hours: 3 hourly from T+0 to T+48, 6 hourly from T+54 to T+120 and then 12 hourly from T+132 to T+240. This is an enhancement with respect to the previous previous satellite image product available in GRIB edition 1, out to T+120. - Availability of the simulated satellite images data in ECMWF Catalogue and dissemination
The timeliness of delivery is optimal for dissemination. The new simulated images satellite data products will be added to the list of products that can be requested in dissemination.
For the time being only Meteosat-10-like simulated satellite data will be made available. The central wavelength of the channels on other platforms is quite close to those selected to be produced, archived and disseminated.
Example images
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48-hour global simulated Meteosat-10 SEVIRI imagery at 10.8 μm (channel 9) from the ECMWF model cycle 41r2 at TCO1279 / O1280 horizontal resolution with 137 vertical levels run on 1 March 2016 at 00 UTC. | 48-hour global simulated Meteosat-10 SEVIRI imagery at 6.30 μm (channel 5)from the ECMWF model cycle 41r2 at TCO1279 / O1280 horizontal resolution with 137 vertical levels run on 1 March 2016 at 00 UTC. |
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| Animation of 10 day global simulated Meteosat-10 SEVIRI imagery at 10.8 μm (channel 9) from the ECMWF model cycle 41r2 at TCO1279 / O1280 horizontal resolution with 137 vertical levels run on 1 March 2016 at 00 UTC. | Animation of 10 day global simulated Meteosat-10 SEVIRI imagery at 6.30 μm (channel 5)from the ECMWF model cycle 41r2 at TCO1279 / O1280 horizontal resolution with 137 vertical levels run on 1 March 2016 at 00 UTC. |
Technical information
The simulated satellite data are specified using the satellite identiferidentifier, instrument, channel number and central wavelength as given in the WMO Manual on codes:
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| Satellite | Instrument | Satellite ID | Instrument Type | Channel | Central wavelength (μm) | Description |
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| Meteosat-10 | SEVIRI (Spinning Enhanced Visible and InfraRed Imager) | 57 | 207 | 5 | 6.30 | Water Vapour at ~300 hPa |
| 6 | 7.36 | Water Vapour at ~500 hPa | ||||
| 9 | 10.79 | Infra-red |
GRIB encoding
The simulated satellite data fields are encoded in GRIB edition 2 with the parameter set to Cloudy brightness temperature:
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GRIB API version at least 1.14.5 needs to be used in order to decode the simulated satellite data products.
Simulated satellite data as ECMWF web charts
Images produced from the simulated satellite data are available as ECMWF medium-range forecast charts on the web as Model simulated satellite images (Authorisation required).
Availability of the simulated satellite data in MARS
The simulated satellite data are archived in MARS under TYPE=SSD (Simulated Satellite Data). They can be viewed in the MARS Catalogue at:
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The fields are stored on the model O1280 octahedral reduced Gaussian grid. Any MARS post-processing keywords, such as AREA or GRID can be applied to the request to interpolate the fields to lower resolutions or geographical sub-areas.
Availability of the simulated satellite
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data in dissemination
The simulated satellite data will be available in dissemination. Initially, the products will be made available to ECMWF Member and Co-operating States. Once the products have been added to the real-time catalogue, they will become available also to users obtaining products regulated by the ECMWF Data Licences
History of simulated satellite images at ECMWF
Prior to the implementation of IFS cycle 41r2, the simulated satellite images image data were stored in MARS with TYPE=SIM and REPRES=SV (Space View) for the IDENT, INSTRUMENT and CHANNEL as specified in the table below.
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