Jason-1 CALVAL - JASON-1/ CALVAL implementation
The precise orbit determination (POD) verification activity will rely on a cooperative investigation among project POD teams (at CNES and JPL) and SWT
OSTST meeting, Venice, 16-18 March 2006
Evaluations of new gravity models for geoid and POD applications 17:00, Precise Orbit Determination for GFO-1 in the GRACE era F. Lemoine
ESOC Precise Orbit Determination
The Envisat Precise Orbit Determination (POD) is performed by the Navigation Support Office (TOS-GN) at the European Space Operations Centre (ESOC).
ERS Activities at NNG: Intro
In parallel to the precise orbit determination the PRARE orbit determination for ERS-2 is computed (since october 1999). The PRARE orbit determination is
Kinematic and reduced-dynamic precise orbit determination of low
Various methods for kinematic and reduced-dynamic precise orbit determination (POD) of Low Earth Orbiters (LEO) were developed based on zero- and

OSTST meeting, Venice, 16-18 March 2006
Evaluations of new gravity models for geoid and POD applications 17:00, Precise Orbit Determination for GFO-1 in the GRACE era F. Lemoine
ESOC Precise Orbit Determination
The Envisat Precise Orbit Determination (POD) is performed by the Navigation Support Office (TOS-GN) at the European Space Operations Centre (ESOC).
ERS Activities at NNG: Intro
In parallel to the precise orbit determination the PRARE orbit determination for ERS-2 is computed (since october 1999). The PRARE orbit determination is
Kinematic and reduced-dynamic precise orbit determination of low
Various methods for kinematic and reduced-dynamic precise orbit determination (POD) of Low Earth Orbiters (LEO) were developed based on zero- and
JASON-1 PRECISE ORBIT DETERMINATION (POD) THROUGH THE COMBINATION
JASON-1 PRECISE ORBIT DETERMINATION (POD) THROUGH THE COMBINATION AND COMPARISON OF GPS, SLR, DORIS AND ALTIMETER CROSSOVER DATA. Authors:
Precise orbit determination and its use in the energy balance
standard method for POD (precise orbit determination) is a reduced dynamic method, which combines the. strength of state-of-the-art dynamic modelling and
Defining a DORIS core network for Jason-1 precise orbit
In view of the future adoption of the new precise orbit determination(POD) standards for the TOPEX/Poseidon and Jason-1 satellites, we propose a method to
Hybrid precise orbit determination strategy by global positioning
Hybrid precise orbit determination strategy by global positioning system tracking system-based hybrid precise orbit determination(POD) strategy.