Abstract's details

State of Knowledge for SAR altimetry over ocean & the case for Interleaved SAR altimetry on Jason-CS

Christine Gommenginger (National Oceanography Centre, United Kingdom)


R. Keith Raney (2kR-LLC, USA); Cristina Martin-Puig (isardSAT, Spain); Laiba Amarouche (Collecte Localisation Satellites, France); Hans Bonekamp (EUMETSAT, Germany)

Event: 2014 Ocean Surface Topography Science Team Meeting

Session: Instrument Processing: Measurement and retracking (SAR and LRM)

Presentation type: Type Poster

Contribution: PDF file


SAR altimetry over the ocean has attracted considerable attention in the past three years and remarkable progress has been made in a short space of time. The ESA Cryosat-2 mission is the first satellite to provide SAR altimeter data over the ocean, and the data helped to demonstrate the significant benefits of SAR mode for ocean altimetry compared to conventional low-resolution mode (LRM) altimeters. Increased consensus and convergence of the results from different groups using different SAR waveform retrackers indicate there is now a high level of confidence in the ability to retrieve geophysical data from SAR mode altimetry over ocean. Several issues particular to SAR altimetry remain open, specifically the sensitivity to platform mispointing, the lack of a sea state bias model in SAR mode, and the effects of swell and swell direction on SAR waveforms. SAR interleaved mode on Jason-CS is strongly recommended, to enable seamless transformation of SAR mode waveforms into conventional LRM and the means for self-calibration. This would ensure continuity of the high-precision sea level 20-year time series, while at the same time, satisfy the need of the operational community for the reduced noise, finer spatial resolution and improved performance near land afforded by SAR altimetry over then ocean and the coastal zone.
Christine Gommenginger
National Oceanography Centre
United Kingdom