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References

Last updated: 2 November 2022

Bos, M.S., Scherneck, H.-G.
Computation of Green's functions for ocean tide loading. In G. Xu (ed.): Sciences of Geodesy - ii. Springer Berlin Heidelberg, pages 1-52, 2013.
Carrère, L., F. Lyard, M. Cancet, A. Guillot, L. Roblou
A new global tidal model taking advantage of nearly 20 years of altimetry. In: Proceedings of Meeting “20 Years of Altimetry”, Venice, 2012.
FES2012
Carrère L., F. Lyard, M. Cancet, A. Guillot, N. Picot:
Finite Element Solution FES2014, a new tidal model - Validation results and perspectives for improvements, presentation to ESA Living Planet Conference, Prague 2016.
FES2014
Cheng Y., O.B. Andersen
Improvement in global ocean tide model in shallow water regions. Poster, SV.1-68 45, OSTST, Lisbon, Oct.18-22, 2010.
DTU10
Eanes, R. J.
Diurnal and semidiurnal tides from TOPEX/POSEIDON altimetry. Eos Trans. AGU, 75(16):108, 1994.
CSR3.0/CSR4.0
Egbert, G.D., A.F. Bennett, M.G.G. Foreman
TOPEX/POSEIDON tides estimated using a global inverse model. J. Geophys. Res., 99(C12):24,821-24,852, 1994.
Egbert, G.D. and L. Erofeeva
Efficient inverse modeling of barotropic ocean tides. Journal of Atmospheric and Oceanic Technolgy,, Vol. 19, 2002. TPXO.6.2, TPXO.7.2 and TPXO_Atlas
Farrell, W. E
Deformation of the Earth by Surface Loads. Rev. Geophys. Space Phys., 10(3):761-797, 1972.
Fok, H.S., C.K. Shum, Y. Yi, H.B. Iz, K. Matsumoto
Improved coastal ocean tide modeling using satellite altimetry, 20 years of Progress in Radar Altimetry, Venice, Italy, 24-29 September 2012.
OSU12
Le Provost, C., M.L. Genco, F. Lyard, P. Vincent, P. Canceil
Spectroscopy of the world ocean tides from a finite-element hydrodynamic model. J. Geophys. Res., 99(C12):24,777-24,797, 1994.
Le Provost, C., F. Lyard, J. Molines, M.L. Genco, F. Rabilloud
A hydrodynamic ocean tide model improved by assimilating a satellite altimeter-derived data set. J. Geophys. Res., 103(C3):5513-5529, 1998.
Lefèvre, F., F. Lyard, F.H., and C. Le Provost
FES98: A new global tide finite element solution independent of altimetry. Geophys. Res. Letters, 27(17):2717-2720, 2000.
Letellier, T.,
Etude des ondes de marée sur les plateaux continentaux. Thèse doctorale, Université de Toulouse III, Ecole Doctorale des Sciences de l'Univers, de l'Environnement et de l'Espace, 237pp, 2004.
FES99 and FES2004.
Lyard, F., L. Lefevre, T. Letellier, O. Francis
Modelling the global ocean tides: insights from FES2004. Ocean Dynamics, 56, 394-415, 2006.
Lyard, F.H., D.J. Allain, M. Cancet, L. Carrère, N. and Picot
FES2014 global ocean tide atlas: design and performance. Ocean Science, 17(3), pp.615-649, 2021.
Matsumoto, K., M. Ooe, T. Sato, J. Segawa
Ocean tide model obtained from TOPEX/POSEIDON altimetry data. J. Geophys. Res., 100(C12):25,319-25,330 1995.
Matsumoto, K., T. Takanezawa, M. Ooe
Ocean Tide Models Developed by Assimilating TOPEX/POSEIDON Altimeter Data into Hydrodynamical Model: A Global Model and a Regional Model Around Japan. J. of Oceanog., 56, 567-581, 2000.
NAO99.b
Penna, N.T., M.S. Bos, T.F. Baker, H.-G. Scherneck
Assessing the accuracy of predicted ocean tide loading displacement values. J. Geodesy, 82:12, DOI: 10.1007/s00190-008-0220-2, 2008.
Ray, R.D.
A Global Ocean Tide Model From TOPEX/POSEIDON Altimetry: GOT99.2. NASA Technical Memorandum 209478, 1999.
Ray, R.D.
Precise comparisons of bottom-pressure and altimetric ocean tides, J. Geophys. Res. Oceans, 118, 4570–
4584, doi:10.1002/jgrc.20336, 2013.
Savcenko, R., , W. Bosch,
EOT08a,  empirical ocean tide model from multi-mission satellite altimetry. Report No. 81,  Deutsches Geodätisches Forschungsinstitut (DGFI), München, 2008
Savcenko, R., W. Bosch
EOT11a - a new tide model from Multi-Mission Altimetry, OSTST Meeting, October 19-21, San Diego, 2011.
Scherneck, H.-G.
A parametrized solid Earth tide mode and ocean loading effects for global geodetic base-line measurements. Geophys. J. Int., 106(3):677-694, 1991.
antique home page
Scherneck, H.-G., J.M. Johansson, F.H. Webb
Ocean loading tides in GPS and rapid variations of the frame origin. Geodesy 2000 - The Challenges in the First Decade Vol. 121, Schwarz, Springer - Verlag Berlin Heidelberg 2000.
Schrama, E.J.O., R.D. Ray
A Preliminary Tidal Analysis Of TOPEX/POSEIDON Altimetry. J. Geophys. Res., 99(C12):24,799-24,808 1994.
Schwiderski, E. W.
On Charting Global Ocean Tides. Rev. Geophys. Space Phys., 18(1):243-268, 1980.
Stammer, D., R.D. Ray, O.B. Andersen, B.K. Arbic, W. Bosch, L. Carrère, Y. Cheng, D.S. Chinn, B.D: Dushaw, G.D. 
Egbert, S.Y. Erofeeva, H.S. Fok, J.A.M. Green, S. Griffiths, M.A. King, V. Lapin, F.G. Lemoine, S.B. Luthcke, F. Lyard, J. Morison, M. Müller, L. Padman, J.G. Richman, J.F. Shriver, J. F., CK Shum, E. Taguchi, Y. Yi
Accuracy assessment of global barotropic ocean tide models, Rev. Geophys., 52, 243–282, https://doi.org/10.1002/2014RG000450, 2014.
Taguchi, E., D. Stammer, W. Zahel
Inferring deep ocean tidal energy dissipation from the global high-resolution data-assimilative HAMTIDE model. J. Geophys. Res.119(C7): 4574-4592, 2014.
HAMTIDE
Watkins, M.M., R.J. Eanes
Observations of tidally coherent diurnal and semidiurnal variations in the geocenter. Geophys. Res. Let., 24(17):2231-2234, 1997.



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