| Titre : |
Special issue on Jason-1 Calibration/Validation, Part II |
| Type de document : |
texte imprimé |
| Auteurs : |
Leffe, Editeur scientifique |
| Editeur : |
London ; New York : Taylor and Francis |
| Année de publication : |
2004 |
| Collection : |
Marine geodesy : an international journal of ocean surveys, mapping and sensing, ISSN 0149-0419 num. Vol.27, no.1-2 |
| Importance : |
341 p. |
| Présentation : |
ill. |
| Format : |
26 cm. |
| ISBN/ISSN/EAN : |
PPN 241965616 |
| Langues : |
Anglais (eng) |
| Tags : |
Jason ( satellites artificiels) Satellites artificiels en géodésie Jason (artificial satellites) Satellite geodesy Marine geodesy |
| Index. décimale : |
629.46 Satellites artificiels |
| Note de contenu : |
The Role of Laser Ranging for Calibrating Jason-1: The Corsica Tracking Campaign,Pages 333-340
PIERRE EXERTIER
, JOËLLE NICOLAS
, PHILIPPE BERIO
, DAVID COULOT
, PASCAL BONNEFOND
& OLIVIER LAURAIN
Abstract:
The French Transportable Laser Ranging System (FTLRS), a highly transportable Satellite Laser Ranging (SLR) instrument, was set up in Corsica (from January to September 2002) for participating to the JASON-1 altimeter verification phase. In addition to the tracking of oceanographic satellite missions and in order to perform an accurate positioning, the FTLRS also acquired laser ranging data on geodetic satellites, STARLETTE and STELLA essentially.
The paper describes the analysis strategy mainly based on the use of a short-arc orbit technique to compute accurate 1 cm local orbits, and then the geocentric positioning (2–3 mm relative to GPS). Finally, we established the JASON-1 absolute calibration value, based on 9 SLR short-arcs (between cycles 1 and 26), at 108.2 ± 8.7 mm; the 10-day repeatability is of 26.1 mm showing that a great accuracy has been reached.
Acknowledgments
The authors acknowledge colleagues from OCA, CNES and IGN who contributed to the FTLRS campaign at Ajaccio, Corsica. We also want to acknowledge the Aspretto marine and air base for their welcoming support. The authors are grateful to Z. Altamimi (IGN/ENSG/LAREG) for his help on the use of the CATREF software.
The JASON-1 CAL/VAL experiment was supported by the CNES. Permanent GPS antenna is supported by the IGN, and the FTLRS is supported by the CNES, the INSU, the IGN, and the OCA.
|
Special issue on Jason-1 Calibration/Validation, Part II [texte imprimé] / Leffe, Editeur scientifique . - London ; New York : Taylor and Francis, 2004 . - 341 p. : ill. ; 26 cm.. - ( Marine geodesy : an international journal of ocean surveys, mapping and sensing, ISSN 0149-0419; Vol.27, no.1-2) . ISSN : PPN 241965616 Langues : Anglais ( eng)
| Tags : |
Jason ( satellites artificiels) Satellites artificiels en géodésie Jason (artificial satellites) Satellite geodesy Marine geodesy |
| Index. décimale : |
629.46 Satellites artificiels |
| Note de contenu : |
The Role of Laser Ranging for Calibrating Jason-1: The Corsica Tracking Campaign,Pages 333-340
PIERRE EXERTIER
, JOËLLE NICOLAS
, PHILIPPE BERIO
, DAVID COULOT
, PASCAL BONNEFOND
& OLIVIER LAURAIN
Abstract:
The French Transportable Laser Ranging System (FTLRS), a highly transportable Satellite Laser Ranging (SLR) instrument, was set up in Corsica (from January to September 2002) for participating to the JASON-1 altimeter verification phase. In addition to the tracking of oceanographic satellite missions and in order to perform an accurate positioning, the FTLRS also acquired laser ranging data on geodetic satellites, STARLETTE and STELLA essentially.
The paper describes the analysis strategy mainly based on the use of a short-arc orbit technique to compute accurate 1 cm local orbits, and then the geocentric positioning (2–3 mm relative to GPS). Finally, we established the JASON-1 absolute calibration value, based on 9 SLR short-arcs (between cycles 1 and 26), at 108.2 ± 8.7 mm; the 10-day repeatability is of 26.1 mm showing that a great accuracy has been reached.
Acknowledgments
The authors acknowledge colleagues from OCA, CNES and IGN who contributed to the FTLRS campaign at Ajaccio, Corsica. We also want to acknowledge the Aspretto marine and air base for their welcoming support. The authors are grateful to Z. Altamimi (IGN/ENSG/LAREG) for his help on the use of the CATREF software.
The JASON-1 CAL/VAL experiment was supported by the CNES. Permanent GPS antenna is supported by the IGN, and the FTLRS is supported by the CNES, the INSU, the IGN, and the OCA.
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