This report describes some of the data processing details involved in handling the altimetry and it provides a compre- hensive set of global cotidal charts of
1 juin 1997 variations using TOPEX/POSEIDON altimeter data. R. S. Nerem 1 B. J. Haines
15 déc. 1994 data from a set of 80 pelagic tide gauges [Ray 1993]. (Figure 1)
POSEIDON altimeter data into barotropic hydrodynamical model. ing both TOPEX/POSEIDON data and 219 coastal tide gauge data is also developed.
15 févr. 1997 Atlantic Basin from TOPEX/POSEIDON altimeter data. Evidence of westward propagating anomalies characterized as first-mode baroclinic Rossby ...
solution constrained by TOPEX/Poseidon altimeter data. Very similar spatial patterns are obtained for all semi- diurnal constituents with about one third
indicate the high capabilities of Topex–Poseidon (T–P) radar altimeter data for monitoring snow-covered regions at global and regional.
POSEIDON altimeter data into barotropic hydrodynamical model. ing both TOPEX/POSEIDON data and 219 coastal tide gauge data is also developed.
TOPEX/Poseidon data has revolutionized the way the global ocean is studied. For the first time, the seasonal cycle and other temporal variabilities of the ocean have been determined globally with high accuracy, yielding fundamentally important information for testing ocean circulation models.
The primary TOPEX/Poseidon mission has actually been completed as of August 1995. The data set from this prime mission has provided oceanographers with the first global data set on the Earth's oceans. The Jason-1 mission of NASA/CNES (launch Dec. 7, 2001) is the follow-on to T/P.
TOPEX/Poseidon used the global perspective available only from space to develop maps of ocean topography showing the barely perceptible hills and valleys of the sea surface. This effort significantly expanded the knowledge developed from shipboard research, which is limited to specific locations.
• The TOPEX/Poseidon oceanography satellite, launched Aug. 10, 1992, ceased operations on Oct. 9, 2005, after nearly 62,000 orbits of Earth in 13 years of operations. The spacecraft's pitch reaction wheel stalled causing the loss of 3-axis stabilization (the ability to maneuver), hence the end of the mission.