ARCWIND - Satellite Ocean Data - 0.125deg

Wind analyses, estimated over the North Atlantic Ocean with a focus on some specific regions, are one the main ARCWIND (http://www.arcwind.eu/) project deliverables. They are estimated from various remotely sensed wind observations in combination with numerical model (WRF), with regular space (0.125deg in latitude and longitude), and time (00h:00, 06h:00, 12h:00, 18h:00 UTC), and based the method described in (Bentamy A., A. Mouche, A. Grouazel, A. Moujane, M. A. Ahmed. (2019): Using sentinel-1A SAR wind retrievals for enhancing scatterometer and radiometer regional wind analyses . International Journal Of Remote Sensing , 40(3), 1120-1147 . https://doi.org/10.1080/01431161.2018.1524174 ).

Simple

Date ( Creation )
2018-10-11
Identifier
FR-330-715-368-00032-DATARMOR_ARCWIND_0125
Identifier
DOI:10.12770/9d716911-0886-486e-9da5-976c31038609
Credit
Ifremer - Laboratoire d'Océanographie Physique et Spatiale
Author
IFREMER - Abderrahim Bentamy
Centre Bretagne - ZI de la Pointe du Diable - CS 10070 - 29280 Plouzané , Brest , France
02 98 22 44 12
02 98 22 45 33
Author
IFREMER - Grouazel Antoine
Centre Bretagne - ZI de la Pointe du Diable - CS 10070 - 29280 Plouzané , Brest , France
02 98 22 42 94
02 98 22 45 33
Author
IFREMER - Paul Frederic
Centre Bretagne - ZI de la Pointe du Diable - CS 10070 - 29280 Plouzané , Brest , France
02 98 22 44 82
02 98 22 45 33
Author
IFREMER - Mouche Alexis
Centre Bretagne - ZI de la Pointe du Diable - CS 10070 - 29280 Plouzané , Brest , France
02 98 22 49 29
02 98 22 45 33
Publisher
IFREMER -
GEMET - INSPIRE themes, version 1.0 ( Theme )
  • Meteorological geographical features
Thèmes Sextant ( Theme )
  • /Physical Environment/Climatology
Sous-regions marines ( Place )
  • /France
Thématiques - SIMM ( Theme )
  • /Environmental Status/Hydrodynamics
  • Research
Type de jeux de donnée ODATIS ( Theme )
  • /Processed data/Model outputs
Use limitation
CC-BY (Creative Commons - Attribution)
Access constraints
License
Use constraints
License
Spatial representation type
Grid
Metadata language
en
Character set
UTF8
Topic category
  • Oceans
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E
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Begin date
2004-01-01
End date
2013-12-31
Reference system identifier
EPSG / WGS 84 (EPSG:4326) / 8.6
Topology level
Geometry only
Number of dimensions
2
Dimension name
Column
Dimension size
88
Resolution
0.125  degres
Dimension name
Row
Dimension size
97
Resolution
0.125  degres
Cell geometry
Area
Distribution format
  • ( )

OnLine resource
DOI of the dataset ( WWW:LINK-1.0-http--metadata-URL )

DOI of the dataset

OnLine resource
Publication ( WWW:LINK-1.0-http--publication-URL )

Abderrahim Bentamy, Alexis Mouche, Antoine Grouazel, Abderrahim Moujane & Aït Ahmed Mohamed (2019) Using sentinel-1A SAR wind retrievals for enhancing scatterometer and radiometer regional wind analyses, International Journal of Remote Sensing, 40:3, 1120-1147, DOI: 10.1080/01431161.2018.1524174

OnLine resource
/home/ref-sat-arcwind/12km6h ( NETWORK:LINK )
OnLine resource
wind_speed ( OGC:WMS )
OnLine resource
Download link ( WWW:DOWNLOAD-1.0-link--download )
OnLine resource
script:arcwind_12km_maps ( OGC:WPS )

Arcwind 12km Maps

OnLine resource
script:arcwind_12km_ts ( OGC:WPS )

Arcwind 12km Timeseries

OnLine resource
script:arcwind_12km_wind_stats ( OGC:WPS )

Arcwind 12km Stats

OnLine resource
Opendap ( WWW:DOWNLOAD-1.0-link--download )
Hierarchy level
Dataset
Statement
One the main of objective of ARCWIND project is to better improve the surface wind space and time characteristics relied on the main weather conditions occurring over the ARCWIND oceanic zones (North Atlantic ocean basins). They are required for the characterization the wind energy simulation and production, site selection, and machine maintenance. Radars and radiometers onboard polar satellites provide valuable information on surface winds, with high spatial resolution, and global coverage. The satellite observation allow access to synoptic and global estimates of geophysical parameters with high spatial resolution ranging between 1km and 50km with an accuracy equivalent to that estimated from the buoy measurements. The characteristics of the satellite surface wind speeds and directions useful for ARCWIND achievements are summarized in Table 1. It provides satellite mission, onboard instrument of interest for the project, period of data availability at IFREMER archiving center, repeat orbit (i.e. requiring time between two successive observations at same location) for polar sun-synchronous satellites, space grid resolution (i.e. also called Wind Vector Cell (WVC)), centers producing and distributing data, and center where data are available for the project. For ARCWIND project purposes more than 25 independent wind sources will be used including 10 scatterometers, 2 SAR, 9 radiometers, and 6 altimeters. More specifically, the European Space Agency (ESA) operated two scatterometers onboard the European Remote Sensing Satellites ERS-1 (1991 – 1996) and ERS-2 (1995 – 2011). Three scatterometers have been operated by the National Aeronautic Space Administration (NASA): NASA scatterometer (NSCAT) (1996 – 1997) onboard the Japanese Advanced Earth Observing Satellite (ADEOS-1), SeaWinds onboard QuikSCAT satellite (1999 - 2009), and SeaWinds onboard (ADEOS-2/Midori) (2002 – 2003). The latest European scatterometers are the Advanced SCATterometer ASCAT-A (2006 – present) and ASCAT-B (2013 – present) onboard METOP-A and –B satellites, Ocean SCATterometer (OSCAT) onboard OCEANSAT2 satellite (2009 – present), and HY-2A scatterometer (2011 – present). ASCAT-A/B, OSCAT, and HY-2A are operated by European Meteorological Satellite organization (EUMETSAT), and the Indian Space Research Organization (ISRO), respectively. Higher wind speed and direction retrievals would be derived from two SAR onboard ENVISAT and SENTINEL 1A ESA satellites, respectively. To enhance surface wind sampling in space and time over ARCWIND oceanic areas, winds from radiometers such as the Special Sensor Microwave Imager (SSM/I) on board Defense Meteorological Satellite Program (DMSP) F10, F11, F13, F14, and F15, F16, F17, and F18 satellites, the polarimetric radiometer WindSat onboard CORIOLIS satellites, are also used. All wind speeds and directions available for the project are related to level 2 product (data over instrument swath or along tracks) associated with each satellite mission and provided by the producer agencies (CNES, ESA,EUMETSAT OSI SAF, IFREMER, KNMI, NASA, RSS). Scatterometers, SAR, and WindSat provide valuable information on both wind speed and direction, whereas passive microwave imagers (e.g. SSM/I) and altimeters provide information on wind speed (only). Radars and radiometers provide accurate retrievals in almost all atmospheric and oceanic conditions. In general, they are available with a spatial resolution lower than 1km for SAR, 7km along altimeter tracks, and varying between 25 and 12.5 km² for scatterometers and radiometers. . To overcome near coast winds, not available from scatterometers and radiometers, the project uses use SAR data.
File identifier
9d716911-0886-486e-9da5-976c31038609 XML
Metadata language
en
Character set
UTF8
Hierarchy level
Dataset
Date stamp
2021-08-11T16:59:12
Metadata standard name
ISO 19115:2003/19139 - SEXTANT
Metadata standard version
1.0
Point of contact
IFREMER - Bentamy Abderrahim
Centre Bretagne - ZI de la Pointe du Diable - CS 10070 - 29280 Plouzané , Brest , France
02 98 22 44 12
02 98 22 45 33
 
 

Overviews

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Spatial extent

N
S
E
W
thumbnail


Keywords

GEMET - INSPIRE themes, version 1.0
Meteorological geographical features
Thèmes Sextant
/Physical Environment/Climatology
Thématiques - SIMM
/Environmental Status/Hydrodynamics Research
Type de jeux de donnée ODATIS
/Processed data/Model outputs

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