Abstract
CNES (Centre National d’Etudes Spatiales) and CLS (Collecte Localisation Satellites) became an International GNSS Service (IGS) Analysis Center (AC) the 20th of May 2010. Since 2009, we are using the integer ambiguity fixing at the zero-difference level strategy in our software package (GINS/Dynamo) as an alternative to classical differential approaches. This method played a key role among all the improvements in the GPS processing we made during this period. This paper provides to the users the theoretical background, the strategies and the models used to compute the products (GPS orbits and clocks, weekly station coordinate estimates and Earth orientation parameters) that are submitted weekly to the IGS. The practical realization of the two-step, ambiguity-fixing scheme (wide-lane and narrow-lane) is described in detail. The ambiguity fixing improved our orbit overlaps from 6 to 3 cm WRMS in the tangential and normal directions. Since 2008, our products have been also regularly compared to the IGS final solutions by the IGS Analysis Center Coordinator. The joint effects of ambiguity fixing and dynamical model changes (satellite solar radiation pressure and albedo force) improved the consistency with IGS orbits from 35 to 18 mm 3D-WRMS. Our innovative strategy also gives additional powerful properties to the GPS satellite phase clock solutions. Single receiver (zero-difference) ambiguity resolution becomes possible. An overview of the applications is given.
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Altamimi Z, Collilieux C, Métivier L (2011) ITRF2008: an improved solution of the international terrestrial reference frame. J Geod 85: 457–473. doi:10.1007/s00190-011-0444-4
Bar-Sever YE, Kroger PM, Borjesson JA (1998) Estimating horizontal gradients of tropospheric path delay with a single GPS receiver. J Geophys Res 103(B3): 5019–5035. doi:10.1029/97JB03534
Bertiger W, Desai SD, Haines B, Harvey N, Moore AW (2010) Single receiver phase ambiguity resolution with GPS data. J Geod 84(5): 327–337
Boehm J, Niell A, Tregoning P, Schuh H (2006) The global mapping function (GMF): a new empirical mapping function based on numerical weather model data. Geophys Res Lett 33(L07304). doi:10.1029/2005GL025546
Cerri L, Berthias JP, Bertiger WI, Haines BJ, Lemoine FG, Mercier F, Ries JC, Willis P, Ziebart M (2010) Precision orbit determination standards for the Jason series of altimeter mission. Mar Geod 33(S1): 379–418. doi:10.1080/01490419.2010.488966
Chen G, Herring TA (1997) Effects of atmospheric azimuthal asymmetry on the analysis of space geodetic data. J Geophys Res 102(B9): 20489–20502. doi:10.1029/97JB01739
Collins P (2008) Isolating and estimating undifferenced GPS integer ambiguities. In: Proceedings of the 2008 National technical meeting of the Institute of Navigation, San Diego, USA, 28–30 January, pp 720–732
Dach R, Brockmann E, Schaer S, Beutler G, Meindl M, Prange L, Bock H, Jäggi A, Ostini L (2009) GNSS processing at CODE: status report. J Geod 83(3–4): 353–365. doi:10.1007/s00190-008-0281-2
Delporte J, Mercier F, Laurichesse D, Galy O (2008) GPS carrier-phase time transfer using single-difference integer ambiguity resolution. Int J Navig and Obs. doi:10.1155/2008/273785
Dow JM, Neilan RE, Gendt G (2009) The international GNSS service in a changing landscape of global navigation satellite systems. J Geod 83(3–4): 191–198
Fliegel H, Gallini T (1996) Solar force modelling of block IIR global positioning system satellites. J Spacecr Rockets 33(6): 863–866
Foerste C, Schmidt R, Stubenvoll R, Flechtner F, Meyer U, Koënig R, Neumayer H, Biancale R, Lemoine JM, Bruinsma S, Loyer S, Barthelmes F, Esselborn S (2008) The GeoForschungsZentrum Potsdam/Groupe de Recherche de Geodesie Spatiale satellite-only and combined gravity field models: EIGEN-GL04S1 and EIGEN-GL04C. J Geod 82(6): 331–346. doi:10.1007/s00190-007-0183-8
Fu LL, Christensen EJ, Yamarone CA, Lefbvre M, Menard Y, Dorrer M, Escudier P (1994) TOPEX/Poseidon mission overview. J Geophys Res 99(C12): 24369–24381
Gambis D (2004) Monitoring Earth orientation at the IERS using space-geodetic observations. State-of-the-art and prospective. J Geod 78(4–5): 295–303. doi:10.1007/s00190-004-0394-1
Geng J, Meng X, Dodson AH, Teferle F (2010) Integer ambiguity resolution in precise point positioning: method comparison. J Geod 84: 569–581
Griffith J, Ray JR (2009) On the precision and accuracy of IGS orbits. J Geod 83(3–4): 277–287. doi:10.1007/s00190-008-0237-6
Kouba J (2008) A simplified yaw-attitude model for eclipsing GPS satellites. GPS Solutions 13: 1–12. doi:10.1007/s10291-008-0092-1
Kouba J (2009) A guide to using international GNSS service (IGS) products. igscb.jpl.nasa.gov/igscb/resource/pubs/UsingIGSProductsVer21.pdf. Accessed 10 Jan 2011
Laurichesse D, Mercier F (2007) Integer ambiguity resolution on undifferenced GPS phase measurements and its application to PPP. ION GNSS 2007 20th international technical meeting of the satellite division, 25–28 Sept 2007, Fort Worth, TX, pp 839–848
Laurichesse D, Mercier F, Berthias JP, Broca P, Cerri L (2009) Integer ambiguity resolution on undifferenced GPS phase measurements and its application to PPP and satellite precise orbit determination. Navig J Inst Navig 56(2):135-149. ISSN:00281522
Lemoine JM, Bruinsma S, Loyer S, Biancale R, Marty JC, Perosanz F, Balmino G (2007) Temporal gravity field models from GRACE data. Adv Space Res 39(10): 1620–1629. doi:10.1016/j.asr.2007.03.062
Lescarmontier L, Legresy B, Coleman R, Perosanz F, Mayet C, Testut L (2012) Vibrations of the Mertz glacier ice tongue. J Glaciol. doi:10.3189/2012JoG11J089
Lyard F, Lefevre F, Letellier T, Francis O (2006) Modeling the global ocean tides: insights from FES2004. Ocean Dyn. doi:10.1007/s10236-006-0086-x
Marty JC (ed) (2009) Documentation algorithmique du programme GINS, Version 5 juillet 2009 (in French). http://www.igsac-cnes.cls.fr/documents/gins/GINS_Doc_Algo.html
McCarthy DD, Petit G (2004) IERS Conventions 2003. IERS Technical Note 32, Verlag des Bundesamts für Kartographie und Geodäsie Frankfurt am Main
Melbourne W (1985) The case for ranging in GPS based geodetic system. In: Goad C (ed) Proceedings of 1st international symposium on precise positioning with the global positioning system. U.S. Department of Commerce, Rockville, Maryland, pp 373–386
Noll CE (2010) The crustal dynamics data information system: a resource to support scientific analysis using space geodesy. Adv Space 45(12): 1421–1440
Perosanz F, Marty JC, Balmino G (1997) Dynamic orbit determination and gravity field model improvement from GPS. DORIS and laser measurements on TOPEX/Poseidon satellite. J Geod 71: 160–170
Petit G, Harmegnies A, Mercier F, Perosanz F, Loyer S (2011) The time stability of PPP links for TAI. In: Proceedings of joint conference FCS and EFTF 2011. doi:10.1109/FCS.2011.5977299
Petrie EJ, Hernández-Pajares M, Spalla P, Moore P, King MA (2010) A review of higher order ionospheric refraction effects on dual frequency GPS. Surv Geophys 32(3): 197–253
Rebischung P, Garayt B (2012) Recent results from the IGS terrestrial frame combinations. In: Marne-La-Vallée, Altamimi Z, Collilieux X (eds) IAG Symp REFAG2010 (in press)
Reigber C, Balmino G, Schwintzer P, Biancale R, Bode A, Lemoine JM, Koenig R, Loyer S, Neumayer H, Marty JC, Barthelmes F, Perosanz F, Zhu SY (2002) A high quality global gravity field model from CHAMP GPS tracking data and accelerometry (EIGEN-1S). Geophys Res Lett 29(14): 1692. doi:10.1029/2002GL015064
Rodriguez-Solano CJ, Hugentobler U, Steigenberger P, Lutz S (2011) Impact of Earth radiation pressure on GPS position estimates. J Geod. doi:10.1007/s00190-011-0517-4
Schmid R, Steigenberger R, Gendt G, Ge M, Rothacher M (2007) Generation of a consistent absolute phase center correction model for GPS receiver and satellite antennas. J Geod 81(12): 781–798. doi:10.1007/s00190-007-0148-y
Standish E. (1998) JPL planetary and lunar ephemerides DE405/ LE405. Interoffice Memorandum IOM 312.F-98-048. Jet Propulsion Laboratory, Pasadena
Tregoning P, Van Dam T (2005) Atmospheric pressure loading corrections applied to GPS data at the observation level. Geophys Res Lett 32(L22310). doi:10.1029/2005GL024104
Wübbena G (1985) Software developments for geodetic positioning with GPS using TI-4100 code and carrier measurements. In: Goad C (ed) Proceedings of 1st international symposium on precise positioning with the global positioning system.. U.S. Department of Commerce, Rockville, Maryland, pp 403–412
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Loyer, S., Perosanz, F., Mercier, F. et al. Zero-difference GPS ambiguity resolution at CNES–CLS IGS Analysis Center. J Geod 86, 991–1003 (2012). https://doi.org/10.1007/s00190-012-0559-2
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DOI: https://doi.org/10.1007/s00190-012-0559-2