Mobile version

Ssalto/Duacs References

All references are updated in the <link file:2217 hdbk>handbook.

  • Amarouche L., P. Thibaut, O. Zanife, J.-P. Dumont, P. Vincent, and N. Steunou, "Improving the Jason-1 ground retracking to better account for attitude effects", Marine Geodesy, vol. 27, pp. 171-197, 2004.
  • Andersen, O. B., The DTU10 Gravity filed and Mean sea surface (2010), Second international symposium of the gravity field of the Earth (IGFS2), Fairbanks, Alaska.
  • Arbic B. K, R. B. Scott, D. B. Chelton, J. G. Richman and J. F. Shriver, 2012, Effects on stencil width on surface ocean geostrophic velocity and vorticity estimation from gridded satellite altimeter data, J. Geophys. Res., vol117, C03029, doi:10.1029/2011JC007367.
  • Boy, F. et al (2011): "Cryosat LRM, TRK and SAR processing". Presented at the 2011 Ocean Surface Topography Science Team meeting. (pdf)
  • Carrère, L, F. Lyard, M. Cancet, A. Guillot, L. Roblou, FES2012: A new global tidal model taking advantage of nearly 20 years of altimetry, Proceedings of meeting "20 Years of Altimetry, Venice 2012.
  • Carrere, L., F. Lyard, 2003, Modeling the barotropic response of the global ocean to atmospheric wind and pressure forcing- comparisons with observations. J. Geophys. Res., 30(6), 1275, doi:10.1029/2002GL016473.
  • Carrere L., 2003, Etude et modélisation de la réponse HF de l’océan global aux forçages météorologiques. PhD thesis, Université Paul Sabatier (Toulouse III, France), 318 pp.
  • Cartwright, D. E., R. J. Tayler, 1971, New computations of the tide-generating potential, Geophys. J. R. Astr. Soc., 23, 45-74.
  • Cartwright, D. E., A. C. Edden, 1973, Corrected tables of tidal harmonics, Geophys. J. R. Astr. Soc., 33, 253-264.
  • Following the scientific recommendations from the OSTST meeting (San Diego, October 2011), the ESA Cryosat Project and the CNES SALP Project have been collaborating to generate these Cryosat-derived L3 and L4 products. Level 1B and Level 2 products derived from CNES processors are not distributed by AVISO as per the CNES / ESA agreement. 
  • Davis, R.E. 1998, Preliminary results from directly measuring middepth circulation in the tropical and South Pacific. Journal of Geophysical Research 103 (C11): PP. 24,619 24,639. doi:199810.1029/98JC01913.
  • Dibarboure G., F. Boy, J.D.Desjonqueres, S.Labroue, Y.Lasne, N.Picot, J.C.Poisson, P.Thibaut, Investigating short wavelength correlated errors on low-resolution mode altimetry, OSTST 2013, (pdf)
  • Dibarboure G., C. Renaudie, M.-I. Pujol, S. Labroue, N. Picot, 2011, "A demonstration of the potential of Cryosat-2 to contribute to mesoscale observation", J. Adv. Space Res., doi:10.1016/j.asr.2011.07.002.
  • Dibarboure G., P. Schaeffer, P. Escudier, M-I.Pujol, J.F. Legeais, Y. Faugère, R. Morrow, J.K. Willis, J. Lambin, J.P. Berthias, N. Picot, 2010: Finding desirable orbit options for the "Extension of Life" phase of Jason-1. Submitted to Marine Geodesy.
  • Dibarboure G., M-I.Pujol, F.Briol, PY.Le Traon, G.Larnicol, N.Picot, F.Mertz, M.Ablain, 2011: Jason-2 in DUACS: first tandem results and impact on processing and products. Marine Geodesy, 34,(3-4),214-241.
  • Dibarboure G., 2009: Using short scale content of OGDR data improve the Near Real Time products of Ssalto/Duacs, oral presentation at Seattle OSTST meeting (pdf).
  • Dorandeu, J., M. Ablain, Y. Faugère, F. Mertz, B. Soussi, and P. Vincent, 2004: Jason-1 global statistical evaluation and performance assessment. Calibration and cross-calibration results. Marine Geodesy, 27,(3-4), 345-372
  • Dorandeu, J., M. Ablain, P.-Y. Le Traon, 2003: Reducing Cross-Track Geoid Gradient Errors around TOPEX/Poseidon and Jason-1 Nominal Tracks: Application to Calculation of Sea Level Anomalies. J. of Atmosph. and Ocean. Techn.,20, 1826-1838.
  • Dorandeu, J. and P.-Y. Le Traon, 1999: Effects of global mean atmospheric pressure variations on mean sea level changes from TOPEX/Poseidon. J. Atmos. Oceanic Technol., 16, 1279-1283.
  • Ducet, N., P.-Y. Le Traon, and G. Reverdin, 2000: Global high resolution mapping of ocean circulation from TOPEX/Poseidon and ERS-1 and -2. J. Geophys. Res., 105, 19477-19498.
  • Dufau C., S. Labroue, G. Dibarboure, Y. Faugère, I. Pujol, C. Renaudie, N. Picot, 2013, Reducing altimetry small-scale errors to access (sub)mesoscale dynamics, OSTST 2013 (pdf)
  • Egbert, Gary D., Svetlana Y. Erofeeva, 2002: Efficient Inverse Modeling of Barotropic Ocean Tides. J. Atmos. Oceanic Technol., 19, 183-204. doi: 10.1175/1520-0426(2002)019<0183:EIMOBO>2.0.CO;2
  • Escudier, R., J. Bouffard, A. Pascual, P.M. Poulain, and M.I. Pujol, 2013.Improvement of Coastal and Mesoscale Observation from Space: Application to the Northwestern Mediterranean Sea. Geophysical Research Letters 40(10): 21482153. doi:10.1002/grl.50324.
  • Gaspar, P., and F. Ogor, Estimation and analysis of the Sea State Bias of the ERS-1 altimeter. Report of task B1-B2 of IFREMER Contract n˚ 94/2.426 016/C., 1994.
  • Gaspar, P., F. Ogor and C. Escoubes, 1996, Nouvelles calibration et analyse du biais d’état de mer des altimètres TOPEX et POSEIDON. Technical note 96/018 of CNES Contract 95/1523, 1996.
  • Gaspar, P., and F. Ogor, Estimation and analysis of the Sea State Bias of the new ERS-1 and ERS-2 altimetric data (OPR version 6). Report of task 2 of IFREMER Contract n˚ 96/2.246 002/C, 1996.
  • Gaspar, P., S. Labroue and F. Ogor. 2002, Improving nonparametric estimates of the sea state bias in radar altimeter measurements of seal level, J. Atmos. Oceanic Technology, 19, 1690-1707.
  • Hernandez, F., P.-Y. Le Traon, and R. Morrow, 1995: Mapping mesoscale variability of the Azores Current using TOPEX/POSEIDON and ERS-1 altimetry, together with hydrographic and Lagrangian measurements. Journal of Geophysical Research, 100, 24995-25006.
  • Hernandez, F. and P. Schaeffer, 2000: Altimetric Mean Sea Surfaces and Gravity Anomaly maps intercomparisons AVI-NT-011-5242-CLS, 48 pp. CLS Ramonville St Agne.
  • Hernandez, F., M.-H. Calvez, J. Dorandeu, Y. Faugère, F. Mertz, and P. Schaeffer, 2000: Surface Moyenne Océanique: Support scientifique à la mission altimétrique Jason-1, et à une mission micro-satellite altimétrique. Contrat SSALTO 2945 - Lot 2 - A.1. Rapport d’avancement. CLS/DOS/NT/00.313, 40 pp. CLS Ramonville St Agne.
  • Iijima, B.A., I.L. Harris, C.M. Ho, U.J. Lindqwiste, A.J. Mannucci, X. Pi, M.J. Reyes, L.C. Sparks, B.D. Wilson, 1999: Automated daily process for global ionospheric total electron content maps and satellite ocean altimeter ionospheric calibration based on Global Positioning System data, J. Atmos. Solar-Terrestrial Physics, 61, 16, 1205-1218
  • Labroue S., A. Ollivier, M. Guibbaud, F. Boy, N. Picot, P. Féménias, "Quality assessment of Cryosat-2 altimetric system over ocean", 2012, OSTST in Venice, (pdf)
  • Labroue S., F. Boy, N. Picot, M. Urvoy, M. Ablain, "First quality assessment of the Cryosat-2 altimetric system over ocean", J. Adv. Space Res., 2011, doi:10.1016/j.asr.2011.11.018.
  • Labroue, S., 2007: RA2 ocean and MWR measurement long term monitoring, 2007 report for WP3, Task 2 - SSB estimation for RA2 altimeter. Contract 17293/03/I-OL. CLS-DOS-NT-07-198, 53pp. CLS Ramonville St. Agne
  • Labroue, S., P. Gaspar, J. Dorandeu, O.Z. Zanifé, F. Mertz, P. Vincent, and D. Choquet, 2004: Non parametric estimates of the sea state bias for Jason-1 radar altimeter. Marine Geodesy, 27, 453-481.
  • Lagerloef, G.S.E., G.Mitchum, R.Lukas and P.Niiler, 1999: Tropical Pacific near-surface currents estimated from altimeter, wind and drifter data, J. Geophys. Res., 104, 23,313-23,326.
  • Le Traon, P.-Y. and F. Hernandez, 1992: Mapping the oceanic mesoscale circulation: validation of satellite altimetry using surface drifters. J. Atmos. Oceanic Technol., 9, 687-698.
  • Le Traon, P.-Y., P. Gaspar, F. Bouyssel, and H. Makhmara, 1995: Using Topex/Poseidon data to enhance ERS-1 data. J. Atmos. Oceanic Technol., 12, 161-170.
  • Le Traon, P.-Y., F. Nadal, and N. Ducet, 1998: An improved mapping method of multisatellite altimeter data. J. Atmos. Oceanic Technol., 15, 522-534.
  • Le Traon, P.-Y. and F. Ogor, 1998: ERS-1/2 orbit improvement using TOPEX/POSEIDON: the 2 cm challenge. J. Geophys. Res., 103, 8045-8057.
  • Le Traon, P.-Y. and G. Dibarboure, 1999: Mesoscale mapping capabilities of multi-satellite altimeter missions. J. Atmos. Oceanic Technol., 16, 1208-1223.
  • Le Traon, P.-Y., G. Dibarboure, and N. Ducet, 2001: Use of a High-Resolution Model to Analyze the Mapping Capabilities of Multiple-Altimeter Missions. J. Atmos. Oceanic Technol., 18, 1277-1288.
  • Le Traon, P.Y. and G. Dibarboure, 2002 Velocity mapping capabilities of present and future altimeter missions: the role of high frequency signals. J. Atmos. Oceanic Technol., 19, 2077-2088.
  • Le Traon, P.Y., Faugère Y., Hernandez F., Dorandeu J., Mertz F. and M. Ablain, 2002: Can we merge GEOSAT Follow-On with TOPEX/POSEIDON and ERS-2 for an improved description of the ocean circulation, J. Atmos. Oceanic Technol., 20, 889-895.
  • Le Traon, P.Y. and G. Dibarboure, 2004: An Illustration of the Contribution of the TOPEX/Poseidon-Jason-1 Tandem Mission to Mesoscale Variability Studies. Marine Geodesy, 27 (1-2).
  • Maheu C. M.-I. Pujol, Y. Faugère, 2013, Change of the SSALTO/Duacs reference period, Aviso+ Newsletter#9 
  • Mertz F., F. Mercier, S. Labroue, N. Tran, J. Dorandeu, 2005: ERS-2 OPR data quality assessment ; Long-term monitoring - particular investigation. CLS.DOS.NT-06.001 (pdf)
  • MSS_CNES_CLS11 was produced by CLS Space Oceanography Division and distributed by Aviso, with support from Cnes (".
  • Pascual, A., Y. Faugère, G. Larnicol, P-Y Le Traon, 2006: Improved description of the ocean mesoscale variability by combining four satellite altimeters. Geophys. Res. Lett., 33
  • Pascual A., C. Boone, G. Larnicol and P-Y. Le Traon, 2009. On the quality of Real-Time altimeter gridded fields: comparison with in-situ data. Journ. of Atm. and Ocean. Techn. Vol. 26(3) pp. 556-569, DOI: 10.1175/2008JTECHO556.1
  • Picot, N., J.M. Lachiver, J. Lambin, J.C. Poisson, J.F. Legeais, A. Vernier, P. Thibaut, M. Lin, Y. Jia, Towards an operational use of HY-2A in SSALTO/Duacs: evaluation of the altimeter performances unsing NSOAS S-IGDR data, OSTST 2013 in Boulder, (pdf)
  • Prandi P., M. Ablain, A. Cazenave, N. Picot, 2011, A new estimation of mean sea level in the Arctic Ocean from satellite altimetry. Submitted to Marine Geodesy.
  • Pujol M-I. et al., 2009. Three-satellite quality level restored in NRT, poster at OSTST meeting (pdf) 
  • Pujol M.-I., Y. Faugère, J.-F. Legeais, M.-H. Rio, P Schaeffer, E. Bronner, N. Picot, 2013, A 20-year reference period for SSALTO/DUACS products, OSTST, 2013 (pdf)
  • Pujol, M.-I., Faugère, Y., Taburet, G., Dupuy, S., Pelloquin, C., Ablain, M., and Picot, N.: DUACS DT2014: the new multi-mission altimeter data set reprocessed over 20 years, Ocean Sci., 12, 1067-1090, doi:10.5194/os-12-1067-2016, 2016. 
  • Ray, R., 1999: A Global Ocean Tide model from TOPEX/Poseidon Altimetry, GOT99.2. NASA Tech. Memo. NASA/TM-1999-209478, 58 pp. Goddard Space Flight Center, NASA Greenbelt, MD, USA.
  • Rio, M.-H. and F. Hernandez, 2003: A Mean Dynamic Topography computed over the world ocean from altimetry, in-situ measurements and a geoid model. J. Geophys. Res., 109, C12032, doi:10.1029/2003JC002226.
  • Rio, M.-H. and F. Hernandez, 2003: High frequency response of wind-driven currents measured by drifting buoys and altimetry over the world ocean. J. Geophys. Res., 108, 39-1.
  • Rio, M.-H., 2003: Combinaison de données in situ, altimétriques et gravimétriques pour l’estimation d’une topographie dynamique moyenne globale. Ed. CLS. PhD Thesis, University Paul Sabatier (Toulouse III, France), 260pp.
  • Rio, M.-H., S. Mulet, E. Greiner, N. Picot, A. Pascual, 2013:" New global Mean Dynamic Topography from a GOCE geoid model, altimeter measurements and oceanographic in-situ data", OSTST2013, (pdf)
  • Rio, M.-H., Pascual, A., Poulain, P.-M., Menna, M., Barceló, B., and Tintoré, J. (2014): Computation of a new Mean Dynamic Topography for the Mediterranean Sea from model outputs, altimeter measurements and oceanographic in-situ data, Ocean Sci. Discuss., 11, 655-692, doi:10.5194/osd-11-655-2014, 2014.
  • Rudenko, S., M. Otten, P. Visser, R. Scharroo, T. Schöne and S. Esselborn: New improved orbit solutions for the ERS-1 and ERS-2 satellites, April 2012, Advances in Space Research, 49, issue 8,
  • Scharroo, R., J. Lillibridge, and W.H.F. Smith, 2004: Cross-calibration and long-term monitoring of the Microwave Radiometers of ERS, Topex, GFO, Jason-1 and Envisat. Marine Geodesy, 97.
  • Scharroo, R., and J. L. Lillibridge, Non-parametric sea-state bias models and their relevance to sea level change studies, in Proceedings of the 2004 Envisat & ERS Symposium, Eur. Space Agency Spec. Publ., ESA SP-572, edited by H. Lacoste and L. Ouwehand, 2005.
  • Scharroo, R. and W.H.F. Smith: A global positioning system-based climatology for the total electron content in the ionosphere. J. Geophys. Res., 115, issue A10. DOI: 10.1029/2009JA014719
  • Tran N., S. Philipps, J.-C. Poisson, S. Urien, E. Bronner, N. Picot, "Impact of GDR_D standards on SSB corrections", Presentation OSTST2012 in Venice, (pdf)
  • Tran N. and E. Obligis, December 2003, "Validation of the use of ENVISAT neural algorithms on ERS-2", CLS.DOS/NT/03.901.
  • Tran, N., S. Labroue, S. Philipps, E. Bronner, and N. Picot, 2010 : Overview and Update of the Sea State Bias Corrections for the Jason-2, Jason-1 and TOPEX Missions. Marine Geodesy, accepted.
  • Vincent, P., Desai S.D.,Dorandeu J., Ablain M., Soussi B., Callahan P.S. and B.J. Haines, 2003: Jason-1 Geophysical Performance Evaluation. Marine Geodesy, 26, 167-186.
  • Wahr, J. W., 1985, Deformation of the Earth induced by polar motion,J. of Geophys. Res. (Solid Earth), 90, 9363-9368.
Rss feedsContactPartnersFAQLexiconLegal noticePersonal Data Protection PolicyMobile
You must enable cookies in your browser preferences to save the modifications
You are using an older version of Internet Explorer, please update to take full advantage of Aviso+ features

Customize the home page

View all widgets
Reduce display
Public profile
User profile

Select/Deselect widgets

Discover AVISO+

Customizable home, reading tools, products search guide, etc.. Discover step by step the features of the new site AVISO+.

Customizable homepage

This home page is composed of blocks called "widgets".

Rearrange the blocks with a "Click & Drop".

Hide a widget with the cross at the top right. Reset or add a widget with the "wrench" icon. The "User" and "Public" profiles offer a predefined organization.

All the modifications are automatically saved as cookies on your machine so as to enable you to have your own specific AVISO+.

Reading tools

Ease your reading by choosing the page background colour (black/white) and/or by modifying the font size.

Browsing menu and breadcrum trail

To ease your browsing through AVISO+, you can use at any time the main banner items with the interactive submenus or use the browsing menu on the left side of the screen (it is open by default). For more readiness of the page contents, you can fold and unfold the browsing menu by clicking on the tab. At any time you can know where you are thanks to the browsing menu or the breadcrum at the top of the page.

Products search guide

The first submenu of the "Data" banner item leads you to a new search form enabling you to find quickier the product that suits your needs. The list of results is updated according to your selection criteria.

AVISO+ Multimedia

The first submenu of the "Multimedia" banner item leads you to AVISO+ collections of images and videos linked to altimetry and its applications. Have a nice visit!