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53 Titles Match Your Query
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1. MERCATOR French Ocean System: High-Resolution North Atlantic and Mediterranean Product (assimilation by optimal interpolation of altimetry data only) [PSY2V1]   PARENT METADATA
Mercator has been providing weekly analysis and real-time nowcast (T0), and forecast (T0+7 days and T0 +14 days) bulletins of the three-dimensional ocean in the North Atlantic ...


2. PODAAC-J1GDR-NETCC [JASON-1_GDR_NETCDF_3]
GDR files contain full accuracy altimeter data, with a high precision orbit (accuracy ~2.5 cm), provided approximately 35 days after data collection. The instruments on Jason-1 make direct observations ...


3. PODAAC-J1IGD-BIN00 [JASON-1_IGDR_3]
IGDR files contain full accuracy altimeter data, with the exception of an interim orbit (accuracy < 4 cm), provided within 3 days of data collection. The instruments on Jason-1 make direct observations ...


4. PODAAC-J1IGD-NETC0 [JASON-1_IGDR_NETCDF_3]
IGDR files contain full accuracy altimeter data, with the exception of an interim orbit (accuracy < 4 cm), provided within 3 days of data collection. The instruments on Jason-1 make direct observations ...


5. PODAAC-J1IGD-SHAN0 [JASON-1_IGDR_SSHA_NETCDF_3]
The SSHA are derived from the Jason-1 IGDR. The instruments on Jason-1 make direct observations of the following quantities: altimeter range, significant wave height, ocean radar backscatter cross-section ...


6. PODAAC-J1OSD-BIN00 [JASON-1_OSDR_3]
OSDR files are provided every 2 hours and within 3 hours of data collection. They contain wave height, wind speed and water vapor measurements computed using real-time on-board DORIS/DIODE orbits ...


7. PODAAC-J1SDR-NETC0 [JASON-1_SGDR_NETCDF_3]
SGDR files contain full accuracy altimeter data, with a high precision orbit (accuracy ~2.5 cm), provided approximately 35 days after data collection. The instruments on Jason-1 make direct observations ...


8. PODAAC-J1SHA-BIN00 [JASON-1_SSHA_3]
The Jason-1 Sea Surface Height Anomaly product is generated from the Jason-1 Geophysical Data Record (J1 GDR). There are 127 orbits per cycle and each orbit has a period of 112 minutes. The ground ...


9. PODAAC-J1SHA-NETCC [JASON-1_GDR_SSHA_NETCDF_3]
The SSHA are derived from the Jason-1 GDR. The instruments on Jason-1 make direct observations of the following quantities: altimeter range, significant wave height, ocean radar backscatter cross-section ...


10. PODAAC-J1SIR-NETC0 [JASON-1_SIGDR_NETCDF_3]
SGDR files contain full accuracy altimeter data, with a high precision orbit (accuracy ~2.5 cm), provided approximately 35 days after data collection. The instruments on Jason-1 make direct observations ...


11. U.S. Naval Oceanographic Office (NAVOCEANO)'s Jason-1 satellite daily Sea Surface Height (SSH) retrievals [NAVOCEANO_JASON-1_SSH]
U.S. Naval Oceanographic Office (NAVOCEANO)'s Jason-1 Sea Surface Height (SSH) daily retrievals.


12. Estimating the Circulation and Climate of the Ocean [ECCO_PRODUCTS]
ECCO's overall goal is to bring ocean state estimation from it's experimental status to that of a practical and quasi operational tool for studying large- scale ocean dynamics, designing observational ...


13. Global Mean Sea Level [geodata_1933]
The reconstruction has used monthly-mean tide gauge data from the Permanent Service for Mean Sea Level (PSMSL) database [Woodworth and Player, 2003], together with Empirical Orthogonal Functions (EOFs) ...


14. Global Reservoir and Lake Monitor Using Near-Real Time Satellite Radar Altimeter Data [USDACROPLAKES]
The U.S. Department of Agriculture?s Foreign Agricultural Service (USDA-FAS), in co-operation with the National Aeronautics and Space Administration, and the University of Maryland, are routinely ...


15. Global Reservoirs [USDA_FAS_Global_Reservoirs]
The project will utilize near-real time radar altimeter data from the Poseidon-2 instrument on-board the Jason-1 satellite and construct time-series graphs of surface water height variations. The ...


16. JASON 1 experiment: Geophysical products [CNES_http__cnes.fr_ark_68059_54736f5916e9134386cb9725dbbe67ae_IDN]
SST is derived from the MODIS IR channels using two channels in either the thermal IR (11-12 um) or channels in the mid-IR region (3.8-4.1 um). The approach is similar to the multi-channel sea surface ...


17. Jason-1 Along-Track Near Real-Time Sea Surface Height Anomaly Data [Jason-1_OSDR-SSHA_NRT]
Jason-1 Operational Sensor Data Record Sea Surface Height Anomaly (OSDR-SSHA) ----------------------------------------------------------------------------- Date: December 7, 2009 The Jason-1 OSDR-SSHA ...


18. MERCATOR French Ocean System [MERCATOR]   CHILD METADATA
The Mercator mission was defined in 1996 by six partner organizations (Cnes, CNRS, Ifremer, IRD, Meteo France, and Shom). Mercator Ocean is based in Toulouse, France, ...


19. MERCATOR French Ocean System: Low-Resolution Global Product (assimilation by optimal interpolation of altimetry data only) [PSY2G1]   PARENT METADATA
Mercator has been providing weekly analysis and real-time nowcast (T0) bulletins of the three-dimensional global ocean since May 2004. The implementation of this low resolution ...


20. MERCATOR French Ocean System: Medium-Resolution Atlantic Product (assimilation by optimal interpolation of altimetry and in situ data) [PSY1V2]   PARENT METADATA
Mercator has been providing weekly analysis and real-time nowcast (T0), and forecast (T0+7 days and T0 +14 days) bulletins of the three-dimensional ocean in the North and tropical ...


21. MERCATOR French Ocean System: Observed 3D Global Ocean Products [Armor]   PARENT METADATA
The "observed global ocean" products are based on satellite observation data (altimetry and sea surface temperature) and in situ data measurements. The Mercator system currently receives data from ...


22. OSCAR - Ocean Surface Current Analyses - Real time [NOAA_NESDIS_OSCAR]
The OSCAR project was initially funded as a National Ocean Partnership Program (NOPP) project for the development of new applications from satellite altimetry and scatterometer missions. It is a collaboration ...


23. U.S. Navy Fleet Numerical Meteorology and Oceanography Center (FNMOC)'s Ocean QC Altimetry Products [FNMOC_ALTIM]
Observational data from the FNMOC Ocean QC (Quality Control) process are posted in near real-time to the USGODAE server. These files contain all of the unclassified in-situ data used to initialize ...


24. Global Mean Sea Level from Integrated Multi-Mission Ocean Altimeters TOPEX/Poseidon Jason-1 and OSTM/Jason-2 [PODAAC-GMSLM-TJ121]
This dataset contains the Global Mean Sea Level (GMSL) trend generated from the Integrated Multi-Mission Ocean Altimeter Data for Climate Research ( http://podaac.jpl.nasa.gov/dataset/MERGED_TP_J1_OSTM_OST_ALL ...


25. Gridded Altimeter Fields with Enhanced Coastal Coverage [PODAAC-USWCO-ALT01]
The Gridded Altimeter Fields with Enhanced Coastal Coverage data product contains Sea Surface Height Anomalies (SSHA or SLA) and zonal and meridional geostrophic velocities for the US west coast encompassing ...


26. OSCAR third degree resolution ocean surface currents [PODAAC-OSCAR-03D01]
OSCAR (Ocean Surface Current Analysis Real-time) contains near-surface ocean current estimates, derived using quasi-linear and steady flow momentum equations. The horizontal velocity is directly estimated ...


27. Integrated Multi-Mission Ocean Altimeter Data for Climate Research complete time series [PODAAC-ALTTS-TJ121]
This dataset contains along track geo-referenced Sea Surface Height Anomalies (SSHA) from TOPEX/Poseidon, Jason-1 and OSTM/Jason-2 (depending on time period) merged onto a single mean reference orbit. ...


28. Integrated Multi-Mission Ocean Altimeter Data for Climate Research by cycles [PODAAC-ALTCY-TJ121]
This dataset contains along track geo-referenced Sea Surface Height Anomalies (SSHA) from TOPEX/Poseidon, Jason-1 and OSTM/Jason-2 (depending on time period) merged into a single mean reference orbit. ...


29. JASON-1_L2_OST_Sensory_Geophysical_Data_Record_VER-C_BINARY [PODAAC-J1SDR-BIN0C]
The Jason-1 binary Sensory Geophysical Data Record (SGDR) contains all the same parameters as the binary GDR but also contains the waveforms measured at 20 Hz. The waveforms are needed for retracking ...


30. JASON-1_L2_OST_Sensory_Geophysical_Data_Record_VER-C_BINARY Geodetic [PODAAC-J1SDR-BIG0C]
The Jason-1 binary Sensory Geophysical Data Record (SGDR) from the Geodetic mission contains all the same parameters as the binary GDR but also contains the waveforms measured at 20 Hz. The waveforms ...


31. Jason-1 Altimeter Geophysical Data Record (GDR) NetCDF [PODAAC-J1GDR-NETCC]
The Jason-1 Geophysical Data Records (GDR) contain full accuracy altimeter data, with a high precision orbit (accuracy ~2.5 cm), provided approximately 35 days after data collection. The instruments ...


32. Jason-1 Altimeter Geophysical Data Record (GDR) NetCDF Ver C Geodetic [PODAAC-J1GDR-NETGC]
The Jason-1 Geophysical Data Records (GDR) Geodetic Mission contain full accuracy altimeter data, with a high precision orbit, provided approximately 35 days after data collection. The data are sorted ...


33. Jason-1 Altimeter Interim Geophysical Data Record (IGDR) [PODAAC-J1IGD-BIN00]
The Jason-1 Interim Geophysical Data Record (IGDR) contain full accuracy altimeter data, with the exception of an interim orbit (accuracy less than 4 cm), provided within 3 days of data collection. ...


34. Jason-1 Altimeter Interim Geophysical Data Record (IGDR) NetCDF [PODAAC-J1IGD-NETC0]
The Interim Geophysical Data Record (IGDR) dataset contain full accuracy altimeter data, with the exception of an interim orbit (accuracy less than 4 cm), provided within 3 days of data collection. ...


35. Jason-1 Altimeter Operational Sensor Data Record (OSDR) [PODAAC-J1OSD-BIN00]
The Jason-1 Operational Sensor Data Record (OSDR) is a Near Real Time (NRT) wind/wave oriented dataset, dedicated to meteorological users. It is generated using the science operational data from POSEIDON-2, ...


36. Jason-1 Altimeter Sensor Interim Geophysical Data Record (SIGDR) NetCDF [PODAAC-J1SIR-NETC0]
The SIGDR is a Sensor Intermediate Geophysical Data Record from Jason-1. Data are available within a 3-5 day lag from measurement. The instruments on Jason-1 make direct observations of the following ...


37. Jason-1 Geophysical Data Record (GDR) Sea Surface Height Anomaly (SSHA) NetCDF [PODAAC-J1SHA-NETCC]
These Sea Surface Height Anomalies (SSHA) are derived from the Jason-1 Geophysical Data Record (GDR). Jason-1 is an altimetric mission whose instruments make direct observations of the following quantities: ...


38. Jason-1 Geophysical Data Record (GDR) Sea Surface Height Anomaly (SSHA) NetCDF Version C Geodetic [PODAAC-J1SHA-NETGC]
These Sea Surface Height Anomalies (SSHA) are derived from the Jason-1 Geophysical Data Record (GDR) Geodetic Mission. Jason-1 is an altimetric mission whose instruments make direct observations of ...


39. Jason-1 Interim Geophysical Data Record (IGDR) Geodetic Orbit [PODAAC-J1IGD-BINGO]
The Jason-1 Interim Geophysical Data Record (IGDR) from the Geodetic mission contain full accuracy altimeter data, with the exception of an interim orbit (accuracy less than 4 cm), provided within ...


40. Jason-1 Interim Geophysical Data Record (IGDR) NetCDF Geodetic Orbit [PODAAC-J1IGD-NETGO]
The Interim Geophysical Data Record (IGDR) Geodetic mission dataset contain full accuracy altimeter data, with the exception of an interim orbit (accuracy less than 4 cm), provided within 3 days ...


41. Jason-1 Interim Geophysical Data Record (IGDR) Sea Surface Height Anomaly (SSHA) NetCDF [PODAAC-J1IGD-SHAN0]
The Sea Surface Height Anomalies (SSHA) are derived from the Jason-1 IGDR, which has a 3-5 day time lag from measurement and a 10 day repeat. The instruments on Jason-1 make direct observations of ...


42. Jason-1 Interim Geophysical Data Record (IGDR) Sea Surface Height Anomaly (SSHA) NetCDF Geodetic Orbit [PODAAC-J1IGD-SHANG]
The Sea Surface Height Anomalies (SSHA) from the Geodetic mission are derived from the Jason-1 IGDR, which has a 3-5 day time lag from measurement and a 10 day repeat. The instruments on Jason-1 make ...


43. Jason-1 Operational Sensor Data Record (OSDR) Geodetic Orbit [PODAAC-J1OSD-BINGO]
The Jason-1 Operational Sensor Data Record (OSDR) Geodetic Mission is a Near Real Time (NRT) wind/wave oriented dataset, dedicated to meteorological users. Its distribution began May 7, 2012. It ...


44. Jason-1 Sensor Geophysical Data Record (SGDR) NetCDF [PODAAC-J1SDR-NETC0]
The Sensory Geophysical Data Record (SGDR) files contain full accuracy altimeter data, with a high precision orbit (accuracy ~2.5 cm), provided approximately 35 days after data collection. The instruments ...


45. Jason-1 Sensor Geophysical Data Record (SGDR) NetCDF Geodetic [PODAAC-J1SDR-NEGC0]
The Sensory Geophysical Data Record (SGDR) files from the Geodetic Mission contain full accuracy altimeter data, with a high precision orbit, provided approximately 35 days after data collection. ...


46. Jason-1 Sensor Interim Geophysical Data Record (SIGDR) NetCDF Geodetic Orbit [PODAAC-J1SIR-NETCG]
These data are from the Jason-1 Geodetic mission. The SIGDR is a Sensor Intermediate Geophysical Data Record from Jason-1 Geodetic mission. Data are available within a 3-5 day lag from measurement. ...


47. Jason-1 level 2 Altimeter Geophysical Data Record version C binary format [PODAAC-J1GDR-BIN0C]
The Jason-1 Geophysical Data Records (GDR) contain full accuracy altimeter data, with a high precision orbit (accuracy ~2.5 cm), provided approximately 35 days after data collection. The instruments ...


48. Jason-1 level 2 Geophysical Data Record version C binary format Geodetic Orbit [PODAAC-J1GDR-BINGC]
The Jason-1 Geophysical Data Records (GDR) from the Geodetic mission contain full accuracy altimeter data, with a high precision orbit, provided approximately 35 days after data collection. The instruments ...


49. OSCAR 1 degree ocean surface currents [PODAAC-OSCAR-10D01]
OSCAR (Ocean Surface Current Analysis Real-time) contains near-surface ocean current estimates, derived using quasi-linear and steady flow momentum equations. The horizontal velocity is directly estimated ...


50. Jason-1 L2 Near Real Time Sea Surface Height Anomaly [PODAAC-J1NRT-GSHA0]
The Jason-1 Near Real Time (NRT) Sea Surface Height Anomaly (SSHA) dataset contain SSHA that are available within 7 hours time lag of measurement. It is generated using a GPS orbit based from OSTM/Jason-2 ...


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