Contribution of DORIS system in construction of common terrestrial coordinate system (ITRF2013)

Geodesy

UDC:

528.2/.3

DOI:

10.22389/0016-7126-2015-900-6-2-9

1 Kuzin S.P.

2 Tatevian S.K.

Year:

2015

№:

900

Pages:

2-9

Astronomy Institute, RAS

1,

2,

Abstract:

A practical utilization of the DORIS system started in February 1990 with launching of the SPOT 2 satellite. During the last decades the role of DORIS system for geodetic measurements and for improvement of the Terrestrial coordinate frame increased significantly. Positioning accuracy of the DORIS system is in the limits of 8.2–12.7 mm for coordinates and 2.7–3.8 mm/y for velocities. Such a high accuracy permits to include DORIS data for the general solution of the new version of the ITRF 2013. Now DORIS is considered as a part of the Global Geodetic Observing System (GGOS) program, initiated by the International Association of Geodesy.

Keywords:

onboard equipment, geodetic program, development of the ITRF2013, precise orbit determination, DORIS

The work partially was carried out under the Russian Foundation of Basic Research (RFBR) grant 15-05-03349.

References:

1. Kuzin S.P., Tatevyan S.K. Issledovanie dvizheniya geocentra po dannym sputnikovoj geodezii. Tr. IPA RAN, SPb.: Наука, 2005, 13. pp. 478-482.

2. Tatevyan S.K. Global'naya Geodezicheskaya Sistema GGOS i ee nauchnoe znachenie. Sovremennye problemy distancionnogo zondirovaniya Zemli iz kosmosa, M.: ИКИ РАН, ООО «Азбука-2000», 2009, Vol. 1, 6. pp. 58-67.

3. Altimimi Z., Collilieux X. (2010) Quality assessment of the IDS contribution to ITRF2008. Advances in Space Research, Volume 45, no. 12, pp. 1500-1509. DOI: 10.1016/j.asr.2010.03.010.

4. Altamimi Z. , Collilieux X. , Metivier L. (2011) ITRF2008 an improved solution of the International terrestrial reference frame. Journ. of Geodesique, no. 85, pp. 457-473. DOI: 10.1007/s00190-011-0444-.2011.

5. Auriol A. , Tourin C. (2010) DORIS System: the new age . Advances in Space Research, no. 46, pp. 1484–1496. DOI: 10.1016/j.asr.2010.05.015 2010.

6. Berger C. , Biancale III R.M., Barlier F. (1998) Improvement of the empirical thermospheric model DTM: DTM94 – a comparative review of various temporal variations and prospects in space geodesy applications. Journ. of Geodesique, no. 72, pp. 161–178.

7. Boehm J., Niell A., Tregoning P., Schuh H. (2006) Global Mapping Function (GMF): a new empirical mapping function based on numerical weather model data . Geophys. Research Letters, Volume 33, no. 7,

8. Bruinsma S. , Thuillier G., Barlier F. (2003) The DTM-2000 empirical thermosphere model with new data assimilation and constraints at lower boundary: accuracy and properties. Journ. of Atmospheric and Solar-Terrestrial Physics, Volume 65, no. 9, pp. 1053–1070. DOI: 10.1016/S1364-6826(03)00137-8.

9. Goldinger H., Hoeck E., Rieser D., Mayer-Guer T., Maier A., Krauss S., Pail R., Fecher T., Gruber T., Brockman J.M., Krasbutter I., Schuh W.D., Jaeggeri A., Prange L., Hausleitner W., Baur O., Kusche I. (2011) The combined satellite-only global gravity field model GOCO02S. Presented at the 2011 General Assembly of the European Geosciences Union. Vienna, Austria,

10. Govind R., Lemoine F.G., Valette J.J., Chinn D., Zelensky N. (2010) A DORIS determination of the absolute velocities of the Sorsdal and Mellor glaciers in Antarctica. Advances in Space Research, no. 45, pp. 1523–1524.

11. (2010) IERS Conventions, IERS Technical Note 36 . Eds.: G. Petit, B. Luzum.International Earth Rotation and Reference Systems Service, Verlag des Bundesamts für Kartographie und Geodäsie, Frankfurt am Main, 179 p. URL: www.iers.org/IERS/EN/Publications/TechnicalNotes/tn36.html

12. Niell A.E. (1996) Global mapping functions for the atmosphere delay at radio wavelengths . Journ. of Geophys. Research , Volume 101, no. B2, pp. 3227–3246.

13. Ray R.D., Beckley B.D., Lemoine F.G. (2010) Vertical crustal motion derived from satellite altimetry and tide gauges, and comparison with DORIS measurements. Advances in Space research, Volume 45, no. 12, pp. 1510–1522. DOI: 10.1016/j.asr.2010.02.020,2010.

14. Willis P., Ries J.C., Zelensky N.P. (2009) DPOD2005: An extension of ITRF2005 for Precise Orbit Determination. Advances in Space Research, Volume 44, no. 5, pp. 535–544. DOI: 10.1016/j.asr.2009.04.018,2009.

15. Willis P., Fagard H., Ferrage P., Lemoine F., Noll C., Noomen R., Otten M., Ries J., Rotacher M., Soudarin L., Tavernier G., Valette J-J. (2010) The International DORIS Service, First steps toward maturity. Advances in Space Research, Volume 45, no. 12, pp. 1408–1420. DOI: 10.1016/j.asr.2010.03.010.

Citation:

Kuzin S.P.,

Tatevian S.K.,

(2015) Contribution of DORIS system in construction of common terrestrial coordinate system (ITRF2013). Geodesy and cartography = Geodezia i Kartografia, (6), pp. 2-9. (In Russian). DOI: 10.22389/0016-7126-2015-900-6-2-9