Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The PPP method is applied in aeronautical navigation as a new technique for determination of aircraft’s position. In this paper preliminary results of recovery aircraft’s position were presented. The raw GPS observations from Topcon dual-frequency receiver were utilized to position obtained with temporal resolution 1 second. Service on-line CSRS-PPP was used for estimation vehicle coordinates and receiver clock, troposphere delay and ambiguity term also. Preliminary results of aircraft’s position show that accuracy of horizontal coordinates is about 3 cm and less than 7 cm for vertical coordinate, respectively. The high level accuracy of coordinates is assured by using precise products such as GPS ephemeris and clocks.
Słowa kluczowe
Rocznik
Tom
Strony
61--68
Opis fizyczny
Bibliogr. 12 poz.
Twórcy
autor
- Team of Satellite Techniques, 08-530 Dęblin, ul. Zawiszy Czarnego 16, Poland
Bibliografia
- 1. Cai C. 2009. “Precise Point Positioning Using Dual-Frequency GPS and GLONASS Measurements”. Master thesis. Calgary: University of Calgary.
- 2. Qu M. 2012. “Experimental studies of wireless communication and GNSS kinematic Positioning performance In high-mobility vehicle environments”. Master thesis. Queensland: Queensland University of Technology.
- 3. El-Mowafy A. 2011. “Precise Point Positioning in the airborne mode”. ARTIFICIAL SATELLITES 46(2). DOI: 10.2478/v10018-011-0010-6.
- 4. Waypoint Products Group. NovAtel Inc. 2006. Airborne Precise Point Positioning (PPP) in GrafNav 7.80 with Comparisons to Canadian Spatial Reference System (CSRS) Solutions. Available at: http://www.novatel.com/assets/Documents/Waypoint/Reports/PPPReport.pdf.
- 5. Doucet K., M. Herwig, A. Kipka, P. Kreikenbohm, H. Landau, R. Leandro, M. Moessmer, C. Pagels. 2012. Introducing Ambiguity Resolution in Webhosted Global Multi-GNSS Precise Positioning with Trimble RTX-PP. Available at: https://www.trimble.com/positioning-services/pdf/RTX_Post_Processing.pdf.
- 6. Gao Y., A. Wojciechowski. 2004. “High precision kinematic positioning using single dual-frequency GPS receiver”. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences 34 Part XXX: 845-850.
- 7. CSRS-PPP on-line Service. Available at: http://webapp.geod.nrcan.gc.ca/geod/tools-outils/ppp.php?locale=en.
- 8. Heßelbartch, A., L. Wanninger. 2010. “Performance of GNSS-PPP in Post-Processing Mode”. In Hydro 2010. Germany, 02 - 05 November 2010.
- 9. Nylen, T., S. White. 2007. Online Precise Point Positioning Using the Canadian Spatial Reference System (CSRS-PPP). UNAVCO.
- 10. Stępniak K., P. Wielgosz, J. Paziewski. 2012. „Analysis of PPP accuracy depending on observing session duration and GNSS systems used”. Biuletyn WAT LXI (1).
- 11. Weihing D. 2004. “Empirical validation of kinematic GPS Precise Point Positioning (PPP) solutions”. Diploma thesis. Curtin, Australia: Curtin University of Technology.
- 12. Huber K., F. Heuberger, C. Abart, A. Karabatic, R. Weber, P. Berglez. 2010. “PPP: Precise Point Positioning – Constraints and Opportunities”. In FIG Congress 2010, Facing the Challenges – Building the Capacity. Sydney, Australia, 11-16 April 2010.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6fdcbe76-c43d-45a8-ac83-d985a3c89f16