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Tytuł artykułu

Positioning and applications

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper presents national report of Poland for IAG on positioning and applications. The selected research presented was carried out at leading Polish research institutions and concern precise multi-GNSS satellite positioning - relative and absolute - and also GNSS-based ionosphere and troposphere modelling and studies. The research resulted in noticeable advancements in these subjects confirmed by the development of new algorithms and methods. New and improved methods of precise GNSS positioning were developed, and also GNSS metrology was studied. New advanced troposphere models were presented and tested. In particular, these models allowed testing IPW variability on regional and global scales. Also, new regional ionosphere monitoring web-based services were developed and launched.
Rocznik
Strony
243--259
Opis fizyczny
Bibliogr. 25 poz., rys., wykr.
Twórcy
  • Gdynia Maritime University 81–87 Morska St., 81-225 Gdynia, Poland
autor
  • University of Warmia and Mazury Institute of Geodesy 1 Oczapowskiego St., 10-719 Olsztyn, Poland
Bibliografia
  • [1] Bosy, J., Graszka, W. and Leonczyk, M. (2007). ASG-EUPOS-a multifunctional precise satellite positioning system in Poland. European Journal of Navigation, Vol. 5, No 4, 2-6.
  • [2] Cellmer, S. (2012): A Graphic Representation of the Necessary Condition for the MAFA Method. IEEE transactions on geoscience and remote sensing, Vol. 50, Issue 2, 482-488, DOI: 10.1109/ TGRS.2011.2161321.
  • [3] Cellmer, S. (2013). Search procedure for improving modified ambiguity function approach. Survey Review, Vol. 45, Issue 332, 380-385, DOI: 10.1179/1752270613Y.0000000045.
  • [4] Cherniak, I., Krankowski, A. and Zakharenkova, I. (2014). Observation of the ionospheric irregularities over the Northern Hemisphere: Methodology and service. Radio Science, Vol. 49, Issue: 8, 653-662.
  • [5] Figurski, M., Bogusz, J., Bosy, J., Kontny, B., Krankowski, A. and Wielgosz, P. (2011). „ASG+”: project for improving polish multifunctional precise satellite positioning system. Reports on Geodesy, No 2(91), 51-58.
  • [6] Goral, W. and Skorupa, B. (2012). Determination of intermediate orbit and position of GLONASS satellites based on the generalized problem of two fixed centers. Acta Geodynamica et Geomaterialia, Vol. 9, No 3(167), 283-290.
  • [7] Hadas, T. and Bosy, J. (2015). IGS RTS precise orbits and clocks verification and quality degradation over time. GPS Solutions, Vol. 19, No 1, 93-105.
  • [8] Hadas, T., Kapłon, J., Bosy, J., Sierny, J. and Wilgan, K. (2013). Near-real-time regional troposphere models for the GNSS precise point positioning technique. Measurement Science and Technology, Vol. 24, No 5, 055003.
  • [9] Hordyniec, P. (2014). Modelling of Zenith Tropospheric Delays and Integrated Water Vapour Values. Geodetický a kartografický obzor, Vol. 60/102, No 12, 309-317.
  • [10] Kruczyk, M. and Liwosz, T. (2012). IGS tropospheric products - quality verification and assessment of usefulness in climatology. International GNSS Service (IGS) Workshop 2012 Olsztyn, 23-27 July 2012 (https://igscb.jpl.nasa.gov/assets/pdf/Poland%202012%20-%20P06%20Kruczyk%20PO67.pdf).
  • [11] Krypiak-Gregorczyk, A., Wielgosz, P., Gosciewski, D. and Paziewski, J. (2013). Validation of approximation techniques for local total electron content mapping. Acta Geodynamica et Geomaterialia, Vol. 10, No3(171), 353-361.
  • [12] Krypiak-Gregorczyk, A., Wielgosz, P. and Krukowska, M. (2014). A New Ionosphere Monitoring Service over the ASG-EUPOS Network Stations. Proc. of the 9th International Conference “Environmental Engineering” (ICEE) Selected papers, 22-23 May, Vilnius, Lithuania.
  • [13] Manning, T., Rohm, W., Zhang, K., Hurter, F. and Wang, C., (2014). Determining the 4D Dynamics of Wet Refractivity Using GPS Tomography in the Australian Region. Earth on the Edge: Science for a Sustainable Planet. Springer Verlag, Berlin - Heidelberg 2014, pp. 41-49.
  • [14] Norman, R., Le Marshall, J., Zhang, K., Wang, C.-S., Carter, B.A., Rohm, W., Manning, T., Gordon, S. and Li, Y. (2014). Comparing GPS Radio Occultation Observations with Radiosonde Measurements in the Australian Region. Earth on the Edge: Science for a Sustainable Planet, Springer Verlag, Berlin - Heidelberg 2014, pp. 51-57.
  • [15] Paziewski, J. (2012): New algorithms for precise positioning with use of Galileo and EGNOS European satellite navigation systems. PhD Dissertation, University of Warmia and Mazury in Olsztyn (in Polish).
  • [16] Paziewski, J., Krukowska, M. and Wielgosz, P. (2014). Preliminary results on performance of new ultrafast static positioning module - POZGEO-2 in areas outside the ASG-EUPOS network. Geodesy and Cartography, Vol. 63, No 1, 101-109, DOI: 10.2478/geocart-2014-0008.
  • [17] Paziewski, J. and Wielgosz, P. (2014). Assessment of GPS + Galileo and multi-frequency Galileo singleepoch precise positioning with network corrections. GPS Solutions, Vol. 18(4), 571-579, DOI 10.1007/ s10291-013-0355-3.
  • [18] Paziewski, J. and Wielgosz, P. (2015). Accounting for Galileo-GPS inter-system biases in precise satellite positioning. Journal of Geodesy, Vol. 89(1), 81-93, DOI 10.1007/s00190-014-0763-3.
  • [19] Prochniewicz, D. (2014). Study on the influence of stochastic properties of correction terms on the reliability of instantaneous network RTK. Artificial Satellites, Vol. 49, No 1, 1-19, DOI:10.2478/arsa-2014-0001.
  • [20] Rohm, W., Yang, Y., Biadeglgne, B., Zhang, K. and Le Marshall, J. (2014a). Ground-based GNSS ZTD/IWV estimation system for numerical weather prediction in challenging weather conditions. Atmospheric Research, Vol. 138, 414-426.
  • [21] Rohm, W., Zhang, K. and Bosy, J. (2014b). Limited constraint, robust Kalman filtering for GNSS troposphere tomography. Atmospheric Measurement Techniques, Vol. 7, No 5, 1475-1486.
  • [22] Wielgosz, P., Krukowska, M., Paziewski, J., Krypiak-Gregorczyk, A., Stępniak, K., Kapłon, J., Sierny, J., Hadaś, T. and Bosy, J. (2013). Performance of ZTD models derived in near real-time from GBAS and meteorological data in GPS fast-static positioning. Measurement Science and Technology, Vol. 24, No 12, p. 125802 DOI:10.1088/0957-0233/24/12/125802.
  • [23] Yuan, Y., Zhang, K., Rohm, W., Choy, S., Norman, R. and Wang, C-S. (2014). Real-time retrieval of precipitable water vapor from GPS precise point positioning. Journal of Geophysical Research: Atmospheres, Vol. 119, No 16, 10044-10057.
  • [24] Zakharenkova, I.E., Krankowski, A., Shagimuratov, I.I., Cherniak, Yu.V., Krypiak-Gregorczyk, A., Wielgosz, P. and Lagovsky, A.F. (2012). Observation of the ionospheric storm of October 11, 2008 using FORMOSAT-3/COSMIC data. Earth Planets and Space, Vol. 64, No 6, 505-512.
  • [25] Zanimonskiy, E.M., Wielgosz, P., Stępniak, K., Купко, В.С., Олейник, А.Е., Любжин, А.В., Cisak, J. and Żak Ł. (2014). Исследование элементов поверочной схемы в области ГНСС-измерений малых расстояний на основе международных эталонов, Ukrainian Metrology Magazine, Nr 3, 27-32.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6ff49595-8a17-469b-976e-840e4f7ff609
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