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9:00 Real-time use of altimeter data in the Mercator océan forecasting and reanalysis systems

Near Real-time Product Validation and Applications H. BONEKAMP (EUMETSAT), J. LILLIBRIDGE (NOAA) , G. JACOBS (NRL). , G. JACOBS (NRL). 9:00 Real-time use of altimeter data in the Mercator océan forecasting and reanalysis systems E. DOMBROWSKY (Mercator Océan )

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9:00 Real-time use of altimeter data in the Mercator océan forecasting and reanalysis systems

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  1. Near Real-time Product Validation and ApplicationsH. BONEKAMP (EUMETSAT), J. LILLIBRIDGE (NOAA), G. JACOBS (NRL) , G. JACOBS (NRL) 9:00 Real-time use of altimeter data in the Mercator océan forecasting and reanalysis systems E. DOMBROWSKY (Mercator Océan) 9:13 Advanced parameterizations of observation and forecast error statistics for the assimilation of satellite altimetry P. BRASSEUR (CNRS) 9:26 Improved real-time DORIS/DIODE orbits for JASON-2 OGDR C. JAYLES (CNES) 9:40 High Accuracy, Short Latency Sea Surface Height From the Combined Jason-1 and Jason-2 Missions S. DESAI (JPL) 9:53 Calibration and validation of wave models using Hs, sigma0 and iceberg data from altimeters P. QUEFFEULOU (IFREMER LOS) 10:06 Expanding the use of NRT altimeter data at NOAA/NCEP D. VANDEMARK (Univ. of New Hampshire) 10:20 DISCUSSION

  2. Near Real-time Product Validation and ApplicationsH. BONEKAMP (EUMETSAT), J. LILLIBRIDGE (NOAA), G. JACOBS (NRL) 9:00 Real-time use of altimeter data in the Mercator océan forecasting and reanalysis systems E. DOMBROWSKY (Mercator Océan) 9:13 Improved real-time DORIS/DIODE orbits for JASON-2 OGDR C. JAYLES (CNES) 9:26 High Accuracy, Short Latency Sea Surface Height From the Combined Jason-1 and Jason-2 Missions S. DESAI (JPL) 9:40 Calibration and validation of wave models using Hs, sigma0 and iceberg data from altimeters P. QUEFFEULOU (IFREMER LOS) 9:53 Expanding the use of NRT altimeter data at NOAA/NCEP D. VANDEMARK (Univ. of New Hampshire) 10:06 DISCUSSION: Jason-1: End-of-Life Orbit Selection Jason-CS: Reference Orbit Selection Jason-3: 1 mm/year Drift Requirement

  3. Near Real-time Product Validation and ApplicationsPosters – Splinter Session II.2 SII.2-23 The 2010 Chile Tsunami observed from altimeters SONG Y. Tony (Jet Propulsion Laboratory) SII.2-24 Assessment of an operational wave prediction system in extreme conditions LEFEVRE Jean-Michel (Meteo-France) SII.2-25 Altimeter microwave surface observations in extreme events QUILFEN Yves (Space Oceanography Laboratory – IFREMER) SII.2-26 Near-real time monitoring of global lakes and reservoirs BIRKETT Charon (University of Maryland) SII.2-27 SSALTO/DUACS: moving forward with near real time DIBARBOURE Gerald (CLS) SII.2-28 Radar altimetry over the gulf of mexico oil spill SMITH Walter H.F. (NOAA) SII.2-29 Assessment of real time products in Oscar surface currents DOHAN Kathleen (Earth and Space Research) SII.2-30 Near real-time global Jason-1 and OSTM sea surface height anomaly maps hosted by a web map service LEBEN Robert (CCAR/University of Colorado) SII.2-31 Real-time modeling, data assimilation and forecasting off the California coast CHAO Yi (Jet Propulsion Laboratory) SII.2-?? Advanced parameterizations of observation and forecast error statistics for the assimilation of satellite altimetry P. BRASSEUR (CNRS)

  4. NRT session: EUMETSAT GPS Orbit

  5. NRT session: EUMETSAT GPS orbit • Short Report available: • Near Real-Time Precise Orbit Determination for Radio Occultation and Altimetry Missions • Y. Andrés, P.L. Righetti, C. Marquardt, EUMETSAT, Darmstadt Germany • Data available on request

  6. Jason-1 End-Of-Life Orbit Selection • The incentives for a geodetic/new-repeat orbit • Improved geoid & MSS with Jason-1 high-precision/low inclination orbit • Unique opportunity for new geodetic science from last research mission • Minimal impact to NRT wind/wave applications • The incentives for remaining in the Topex/Jason orbit • Optimal mesoscale sampling with current interleaved + reference orbit • SSHA errors from mean profile < errors from gridded MSS • Needed until Altikais operational because of new Envisat orbit • Consider the scientific impacts to NRT applications

  7. Jason-CS Reference Orbit Selection • The incentives for a lower/different orbit • Potential reduction in launch cost • Potential extended lifetime due to decreased radiation • Potential improved instrument performance • Better prospects for orbital debris mitigation • Better high-latitude coverage • The incentives for remaining in the Topex/Jason orbit • Improved capability for the inter-calibration between Jason-3 and Jason-CS required to maintain the climate record of sea level • High-latitude, as well as mesoscale sampling, can be provided by other altimeters in the OST Constellation • Orbital debris at 1336-km is less a threat than at lower orbits • Consider the scientific impacts to NRT applications

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