1454 new mtg datasets in eumetsat

eodag/resources/product_types.yml

@@ -1495,6 +1495,368 @@ S3_LAN_LI:
   title: SENTINEL3 SRAL Level-2 LAN LAND ICE
   missionStartDate: "2016-02-16T00:00:00Z"
 
+# MARK: MTG
+MSG_LST:
+  abstract: |
+    The full archive of MSG/SEVIRI data was reprocessed to provide the user
+    community a consistent, homogeneous and continuous Data Record of the
+    15-min Land Surface Temperature (LST) for the period 2004-2015. This Data
+    Record was obtained with the best version of its equivalent NRT product
+    (MLST) which can also complement the time series from 2016 onwards.
+  instrument: SEVIRI
+  platform: MSG
+  platformSerialIdentifier: MSG
+  processingLevel: L3
+  keywords: SEVIRI,L3,MSG,Vegetation,Land
+  sensorType: OPTICAL
+  license: proprietary
+  title:  Land Surface Temperature Climate Data Record - MSG
+  missionStartDate: "2021-01-21T00:00:00Z"
+
+MSG_LST_DIR:
+  abstract: |
+    Land Surface Temperature (LST) is the radiative skin temperature over land.
+    LST plays an important role in the physics of land surface as it is
+    involved in the processes of energy and water exchange with the atmosphere.
+    LST is useful for the scientific community, namely for those dealing with
+    meteorological and climate models. Accurate values of LST are also of
+    special interest in a wide range of areas related to land surface
+    processes, including meteorology, hydrology, agrometeorology, climatology
+    and environmental studies. Land Surface Emissivity (EM), a crucial
+    parameter for LST retrieval from space, is independently estimated as a
+    function of (satellite derived) Fraction of Vegetation Cover (FVC) and land
+    cover classification. In the most recent version of the dataset,
+    information on the expected deviation of LST estimates from SEVIRI/MSG with
+    respect to a reference view – here considered to be nadir view – has been
+    added to the original product (LSA-001) as an extra data layer (LSA-004).
+  instrument: SEVIRI
+  platform: MSG
+  platformSerialIdentifier: MSG
+  processingLevel: L2
+  keywords: SEVIRI,L2,MSG,Vegetation,Land
+  sensorType: OPTICAL
+  license: proprietary
+  title:   Land Surface Temperature with Directional Effects - MSG
+  missionStartDate: "2005-01-16T00:00:00Z"
+
+MFG_GSA_57:
+  abstract: |
+    Release 2 of the Thematic Climate Data Record (TCDR) of the Meteosat First
+    Generation (MFG) Level 2 land surface albedo. The variables estimated are
+    black-sky albedo (BSA) and white-sky albedo (WSA) with the corresponding
+    uncertainties as explained in the Product User Guide (PUM). The data record
+    validation and limitations are provided in the Validation Report (VR). The
+    products are available in netCDF4 format. This release contains products
+    generated with Meteosat-7.
+  instrument: MVIRI
+  platform: MFG
+  platformSerialIdentifier: MFG
+  processingLevel: L2
+  keywords: MVIRI,L2,MFG,Climate,Thematic
+  sensorType: OPTICAL
+  license: proprietary
+  title: GSA Level 2 Climate Data Record Release 2 - MFG - 57 degree
+  missionStartDate: "2006-12-07T00:00:00Z"
+
+MFG_GSA_63:
+  abstract: |
+    Release 2 of the Thematic Climate Data Record (TCDR) of the Meteosat First
+    Generation (MFG) Level 2 land surface albedo. The variables estimated are
+    black-sky albedo (BSA) and white-sky albedo (WSA) with the corresponding
+    uncertainties as explained in the Product User Guide (PUM). The data record
+    validation and limitations are provided in the Validation Report (VR). The
+    products are available in netCDF4 format. This release contains products
+    generated with Meteosat-5.
+  instrument: MVIRI
+  platform: MFG
+  platformSerialIdentifier: MFG
+  processingLevel: L2
+  keywords: MVIRI,L2,MFG,Climate,Thematic
+  sensorType: OPTICAL
+  license: proprietary
+  title: GSA Level 2 Climate Data Record Release 2 - MFG - 63 degree
+  missionStartDate: "1998-07-10T00:00:00Z"
+
+MSG_MFG_GSA_0:
+  abstract: |
+    Release 2 of the Thematic Climate Data Record (TCDR) of the Meteosat First
+    Generation (MFG) and Meteosat Second Generation (MSG) Level 2 land surface
+    albedo. The variables estimated are black-sky albedo (BSA) and white-sky
+    albedo (WSA) with the corresponding uncertainties as explained in the
+    Product User Guide (PUM). The data record validation and limitations are
+    provided in the Validation Report (VR). The products are available in
+    netCDF4 format. This release contains products generated with Meteosat-2 to
+    Meteosat-10.
+  instrument: MVIRI,SEVIRI
+  platform: MFG,MSG
+  platformSerialIdentifier: MFG,MSG
+  processingLevel: L2
+  keywords: MVIRI,SEVIRI,L2,MFG,Climate,Thematic
+  sensorType: OPTICAL
+  license: proprietary
+  title: GSA Level 2 Climate Data Record Release 2 - MFG and MSG - 0 degree
+  missionStartDate: "1982-02-10T00:00:00Z"
+
+HIRS_FDR_1_MULTI:
+  abstract: |
+    This is Release 1 of the Fundamental Data Record (FDR) brightness
+    temperatures from the High Resolution Infrared Radiation Sounder (HIRS) on
+    board NOAA and Metop satellites. The data record covers more than 40 years
+    from 29 October 1978 to 31 December 2020. Release 1 provides recalibrated
+    Level 1c brightness temperatures based on the V4.0 calibration method
+    developed by Cao et al. (2007). This method was implemented into the
+    NWP-SAF software ATOVS and AVHRR processing Package (AAPP). This software
+    was consistently used to recalibrate and reprocess data from all HIRS
+    instruments on board TIROS-N, NOAA-06 to NOAA-19, Metop-A, and Metop-B. The
+    polygons, required for the data tailoring, show problems with non-continues
+    data. Some polygons of the HIRS data record are found to be incorrect.
+    However, this does not affect the correctness of the data itself. This is a
+    Fundamental Data Record (FDR).
+  instrument: HIRS
+  platform: Metop,TIROS,NOAA
+  platformSerialIdentifier: Metop,TIROS,NOAA
+  processingLevel: L1
+  keywords: HIRS,L2,HIRS,TIROS,Metop,NOAA,Sounder
+  sensorType: Sounder
+  license: proprietary
+  title:  HIRS Level 1C Fundamental Data Record Release 1 - Multimission - Global
+  missionStartDate: "1978-10-29T00:00:00Z"
+
+MSG_OCA_CDR:
+  abstract: |
+    The OCA Release 1 Climate Data Record (CDR) covers the MSG observation
+    period from 2004 up to 2019, providing a homogenous cloud properties time
+    series. It is generated at full Meteosat repeat cycle (15 minutes)
+    fequency. Cloud properties retrieved by OCA are cloud top pressure, cloud
+    optical thickness, and cloud effective radius, together with uncertainties.
+    The OCA algorithm has been slightly adapted for climate data record
+    processing. The adaptation mainly consists in the usage of different
+    inputs, because the one used for Near Real Time (NRT) were not available
+    for the reprocessing (cloud mask, clear sky reflectance map) and also not
+    homogenous (reanalysis) over the complete time period. it extends the NRT
+    data record more than 9 years back in time. This is a Thematic Climate Data
+    Record (TCDR).
+  instrument: SEVIRI
+  platform: MSG
+  platformSerialIdentifier: MSG
+  processingLevel: L2
+  keywords: MSG,L2,SEVIRI,Climate,Clouds,Atmosphere,Observation,Thematic
+  sensorType: MSG
+  license: proprietary
+  title:   Optimal Cloud Analysis Climate Data Record Release 1 - MSG - 0 degree
+  missionStartDate: "2004-01-19T00:00:00Z"
+
+S6_RADIO_OCCULTATION:
+  abstract: |
+    Jason-CS/Sentinel-6 Radio Occultation Level 1B product, providing a bending
+    angle versus impact parameter profile, as well as other relevant
+    information derived from the observation.
+  instrument: GNSS-RO
+  platform: Sentinel-6
+  platformSerialIdentifier: Sentinel-6
+  processingLevel: L1
+  keywords: Sentinel-6,L1,GNSS-RO,Radio,Occultation
+  sensorType: Radio Occultation
+  license: proprietary
+  title: Radio Occultation Level 1B Products - Sentinel-6
+  missionStartDate: "2021-11-19T00:00:00Z"
+
+MTG_LI_AF:
+  abstract: |
+    LI Level 2 Accumulated Flashes (AF) complements the LI Level 2 Accumulated
+    Flash Area (AFA) by providing one with the variation of the number of
+    events within those regions reported to have lightning flashes in the
+    Accumulated Flash Area (AFA). Accumulated Flashes provide users with data
+    about the mapping of the number of LI events/detections rather than the
+    mapping of flashes. One should keep in mind that the absolute value within
+    each pixel of the Accumulated Flashes has no real physical meaning; it is
+    rather a proxy for the pixel-by-pixel variation of the number of events. It
+    is worth noting that one can derive the flash rate over a region
+    encompassing a complete lightning feature (not within an FCI grid pixel) in
+    Accumulated Flashes; this stems from the definition in Accumulated
+    (gridded) data.
+  instrument: LI
+  platform: MTG
+  platformSerialIdentifier: MTG
+  processingLevel: L2
+  keywords: MTG,L2,LI,AF,Lightning,Weather,Flashes
+  sensorType: Lightning Imager
+  license: proprietary
+  title:  LI Accumulated Flashes - MTG - 0 degree
+  missionStartDate: "2024-07-08T00:00:00Z"
+
+MTG_LI_LFL:
+  abstract: |
+    LI Level 2 Lightning Flashes (LFL) contains LI flashes. The definition of a
+    flash is shared by LI and GLM; collections of groups that are correlated in
+    space and time within the two windows of 330 milliseconds (temporal window)
+    and 16.5km (space window), respectively. Even if the definition of a flash
+    is not uniform among all lightning location systems, the simple fact that a
+    flash is a collection of groups/strokes correlated in space and time
+    somewhat mitigates the differences in the way different types of lightning
+    sensors interpret different lightning processes. This makes flash datasets
+    of different lightning location systems more comparable than group/stroke
+    datasets.
+  instrument: LI
+  platform: MTG
+  platformSerialIdentifier: MTG
+  processingLevel: L2
+  keywords: MTG,L2,LI,LFL,Lightning,Weather,Flashes
+  sensorType: Lightning Imager
+  license: proprietary
+  title:  LI Lightning Flashes - MTG - 0 degree
+  missionStartDate: "2024-07-08T00:00:00Z"
+
+MTG_LI_LGR:
+  abstract: |
+    LI Level 2 Lightning Groups (LGR) contains LI groups. These are closely
+    related to other similar space-born instruments. The definition of a group is
+    shared by LI, GLM and ISS-LIS groups: collections of pixel-based lightning
+    events that are acquired within the same acquisition frame and are spatially
+    clustered. LI groups provide users with information about the time-slicing
+    imaging (over the LI acquisition time, ie one millisecond) of lightning
+    optical emissions. When comparing LI groups with either GLM or ISS-LIS
+    groups, users must consider the differences in design between instruments,
+    such as integration time and spatial sampling/resolution. Both GLM and
+    ISS-LIS acquire over two milliseconds. When observing the same storm, this
+    difference in design can potentially create considerable differences in the
+    total number of groups, as well as differences between the acquisition times
+    of the groups. In addition, differences will be found also for the
+    geolocation of groups. In general, the discrepancies mentioned above are
+    expected to be of the order of a few milliseconds for the group time and of
+    the order of a few kilometres for the group geolocation.
+  instrument: LI
+  platform: MTG
+  platformSerialIdentifier: MTG
+  processingLevel: L2
+  keywords: MTG,L2,LI,LGR,Lightning,Weather,Flashes
+  sensorType: Lightning Imager
+  license: proprietary
+  title:  LI Lightning Groups - MTG - 0 degree
+  missionStartDate: "2024-07-08T00:00:00Z"
+
+MTG_LI_AFA:
+  abstract: |
+    LI Level 2 Accumulated Flash Area (AFA) provides the user with data about
+    flash mapping by using the area covered by the optical emission of each
+    flash in LI Level 2 Lightning Flashes (LFL). It is important to keep in
+    mind that each flash is treated as a flat (uniform) optical emission in
+    this data. Accumulated Flash Area allows one to monitor the regions within
+    a cloud top from which lightning-related optical emissions over 30 sec are
+    emerging and accumulating and to know the number of flashes that were
+    observed within the FCI grid pixels composing those regions. For example,
+    from the Accumulated Flash Area, one can derive the flash rate for each
+    pixel of the FCI 2km grid. This is a considerable improvement compared to
+    the simple description of the flash using the variable flash_footprint
+    available in Lightning Flashes.
+  instrument: LI
+  platform: MTG
+  platformSerialIdentifier: MTG
+  processingLevel: L2
+  keywords: MTG,L2,LI,LGR,Lightning,Weather,Flashes
+  sensorType: Lightning Imager
+  license: proprietary
+  title: LI Accumulated Flash Area - MTG - 0 degree
+  missionStartDate: "2024-07-08T00:00:00Z"
+
+MTG_LI_AFR:
+  abstract: |
+    LI Level 2 Accumulated Flash Radiance (AFR) is meant to describe the
+    pixel-by-pixel variation of the optical emission accumulated over 30 sec
+    within the FCI 2km grid. This stems from the events contributing to LI
+    Level 2 Accumulated Flashes (AF) (each one contributing with its radiance)
+    and it can be thought of as the 'appearance' of the accumulated optical
+    emissions over 30 sec as seen by LI.
+  instrument: LI
+  platform: MTG
+  platformSerialIdentifier: MTG
+  processingLevel: L2
+  keywords: MTG,L2,LI,LGR,Lightning,Weather,Flashes
+  sensorType: Lightning Imager
+  license: proprietary
+  title:  LI Accumulated Flash Radiance - MTG - 0 degree
+  missionStartDate: "2024-07-08T00:00:00Z"
+
+MTG_LI_LEF:
+  abstract: |
+    LI Level 2 Ligthning Events Filtered (LEF) is one of the initial products,
+    along with Lightning Flashes (LFL) and Lightning Groups (LGR), and provides
+    the finest scale over which LI can monitor lightning activity. Lightning
+    Flashes and Lightning Groups contain two variables that provide the size of
+    each group and flash in units of LI pixels, ie number_of_events and
+    flash_footprint, respectively. To compute the exact physical size of a
+    group/flash, users should use the information available in Ligthning Events
+    Filtered. One can derive such a descriptor only by knowing which events
+    compose a group/flash and employing the physical size of the projection of
+    each event on the Earth's surface for the computation.
+  instrument: LI
+  platform: MTG
+  platformSerialIdentifier: MTG
+  processingLevel: L2
+  keywords: MTG,L2,LI,LGR,Lightning,Weather,Flashes
+  sensorType: Lightning Imager
+  license: proprietary
+  title:  LI Lightning Events Filtered - MTG - 0 degree
+  missionStartDate: "2024-07-08T00:00:00Z"
+
+MTG_FCI_FDHSI:
+  abstract: |
+    The rectified (Level 1c) Meteosat FCI full disc image data in normal
+    spatial (FDHSI) resolution. The FCI instrument consists of 16 imaging
+    spectral channels ranging from 0.4 µm to 13.3 µm with the channel at 3.8 µm
+    having an extended dynamic range dedicated to fire monitoring. The spatial
+    resolution is 1km for visible and near-infrared channels and 2 km for
+    infrared channels. FCI Level 1c rectified radiance dataset consists of a
+    set of files that contain the level 1c science data rectified to a
+    reference grid together with the auxiliary data associated with the
+    processing configuration and the quality assessment of the dataset. Level
+    1c image data here corresponds to initially geolocated and radiometrically
+    pre-processed image data, without full georeferencing and cal/val in
+    spatial and spectral domains applied. The data are ready for further
+    processing and testing, e.g. value chains and initial tests for extracting
+    meteorological products, however, we generally do not recommend the
+    generation of Level 2 products due to known limitations in the Level 1c
+    data.
+  instrument: FCI
+  platform: MTG
+  platformSerialIdentifier: MTG
+  processingLevel: L1
+  keywords: MTG,L1,FCI,Atmosphere,Ocean,Land
+  sensorType: Imager
+  license: proprietary
+  title: FCI Level 1c Normal Resolution Image Data - MTG - 0 degree
+  missionStartDate: "2024-09-24T00:00:00Z"
+
+MTG_FCI_HRFI:
+  abstract: |
+    The rectified (Level 1c) Meteosat FCI full disc image data in high spatial
+    (HRFI) resolution.The FCI instrument consists of 16 imaging spectral
+    channels ranging from 0.4 µm to 13.3 µm with the channel at 3.8 µm having
+    an extended dynamic range dedicated to fire monitoring. The high-resolution
+    HRFI dataset has 4 spectral channels at VIS 0.6 µm, NIR 2.2 µm, IR 3.8 µm
+    and IR 13.3 µm with a spatial resolution of 0.5 km for visible and
+    near-infrared channels and 1 km for infrared channels. FCI Level 1c
+    rectified radiance dataset consists of a set of files that contain the
+    level 1c science data rectified to a reference grid together with the
+    auxiliary data associated with the processing configuration and the quality
+    assessment of the dataset. Level 1c image data here corresponds to
+    initially geolocated and radiometrically pre-processed image data, without
+    full georeferencing and cal/val in spatial and spectral domains applied.
+    The data are ready for further processing and testing, e.g. value chains
+    and initial tests for extracting meteorological products, however, we
+    generally do not recommend the generation of Level 2 products due to known
+    limitations in the Level 1c data. A selection of single channel data are
+    visualised in our EUMETView service.
+  instrument: FCI
+  platform: MTG
+  platformSerialIdentifier: MTG
+  processingLevel: L1
+  keywords: MTG,L1,FCI,Atmosphere,Ocean,Land
+  sensorType: Imager
+  license: proprietary
+  title: FCI Level 1c High Resolution Image Data - MTG - 0 degree
+  missionStartDate: "2024-09-24T00:00:00Z"
+
 # MARK: S3 SYNERGY
 # Synergy data products are generally combinations of OLCI and SLSTR instruments
 S3_SY_SYN: