Research on reference frames and reference networks in Poland in 2015–2018

Krynski, Jan; Rogowski, Jerzy B.; Liwosz, Tomasz

doi:10.24425/gac.2019.126093

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Tytuł artykułu

Research on reference frames and reference networks in Poland in 2015–2018

Autorzy

Krynski Jan , Rogowski Jerzy B. , Liwosz Tomasz

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DOI

10.24425/gac.2019.126093

Warianty tytułu

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Abstrakty

Research activities of Polish research groups in a period of 2015–2019 on reference frames and reference networks are reviewed and summarised in this paper. The summary contains the results concerning the implementation of latest resolutions on reference systems of the International Union of Geodesy and Geophysics and the International Union of Astronomy with special emphasis on the changes in the Astronomical Almanac of the Institute of Geodesy and Cartography, Warsaw. It further presents the status of the implementation of the European Terrestrial Reference System 1989 (ETRS89) in Poland, monitoring the terrestrial reference frame, operational work of GNSS permanent IGS/EPN stations in Poland, operational work of the laser ranging station in Poland of the International Laser Ranging Service (ILRS), active GNSS station network for the realization of ETRS89 in Poland, validation of recent ETRS89 realization, expressed in ETRF2000 in Poland, and maintenance of the vertical control in Poland (PL-KRON86-NH). Extensive research activities are observed in the field of maintenance and modernization of gravity control not only in Poland, but also in Sweden and in Denmark, as well as establishment of gravity control in Ireland based on absolute gravity survey. The magnetic control in Poland was also regularly maintained. The bibliography of the related works is given in references.

Słowa kluczowe

reference system reference frame vertical control gravity control magnetic control

układ odniesienia grawitacja sieć odniesienia

Wydawca

Komitet Geodezji PAN

Czasopismo

Geodesy and Cartography

Rocznik

2019

Tom

Vol. 68, no. 1

Strony

5--29

Opis fizyczny

Bibliogr. 44 poz., rys., tab.

Twórcy

autor

Krynski Jan

jan.krynski@igik.edu.pl

Institute of Geodesy and Cartography, Centre of Geodesy and Geodynamics 27 Kaczmarskiego St., 02-679 Warsaw, Poland

autor

Rogowski Jerzy B.

jerzyrogowski@gmail.com

Gdynia Maritime University 81–87 Morska St., 81-225 Gdynia, Poland

autor

Liwosz Tomasz

tomasz.liwosz@gik.pw.edu.pl

Warsaw University of Technology, Department of Geodesy and Geodetic Astronomy 1 Pl. Politechniki, 00-661 Warsaw, Poland

Bibliografia

[1] Araszkiewicz, A., Kroszczynski, K. and Baldysz Z. (2018). A new homogenous GNSS product provided by MUT AC. Symposium of the IAG Subcommission for Europe (EUREF) held In Amsterdam. The Netherlands, 30 May – 1 June 2018, http://www.euref.eu/symposia/2018Ams terdam/p-01-Araszkiewicz.pdf.
[2] Bogusz, J., Klos, A., Gruszczynska, M. and Gruszczynski, M. (2016). Towards reliable velocities of permanent GNSS stations. Reports on Geodesy and Geoinformatics, 100, 17–26. DOI: 10.1515/rgg-2016-0003.
[3] Bogusz, J. and Klos, A. (2016). On the significance of periodic signals in noise analysis of GPS stadion coordinates time series. GPS Solutions, 20(4), 655–664. DOI: 10.1007/s10291-015-0478-9.
[4] Bosy J. and Krynski J. (2015). Reference frames and reference networks. Geodesy and Cartography, 64(1), 5–29. DOI: 10.1515/geocart-2015-0011.
[5] Bosy, J., Krynski, J. and Araszkiewicz, A. (2016). EPOS – PL – the Polish Earth science infrastructure integrated with the EPOS programme. 17th Czech-Polish Workshop on Recent Geodynamice of the Sudeten and Adjacent Areas, Ramzová, Czech Republic, 20–22 October 2016. http://www.igig.up.wroc.pl/download/17th_Cz-P_Workshop_2016_Ramzova_Abstracts.pdf.
[6] Bosy, J., Orlecka-Sikora, B., Olszewska, D., Gorka-Kostrubiec, B, Lizurek, G, Lurka, A, Jozwiak, W., Welker, E., Werner T., Junosza-Szaniawski R., Araszkiewicz A., Kaplon J., Krynski J., Dykowski P., Czuba W., Janik, Sosnica, K., Rohm, W., Tymkow, P., Borkowski, A., Hadas, T., Mutke, G., Baranski, A., Szepieniec, T. and Kocot, J. (2017). EPOS – PL the initiative for European Plate Observation System in Poland, integrated infrastructure and new algorithms. Sympodium of the IAG Subcommission for Europe (EUREF) held in Wroclaw, Poland, 17–19 May 2017 http://www.euref.eu/symposia/2017Wroclaw/04-04-Bosy.pdf.
[7] Dach, R., Hugentobler, S., Fridez, P. and Meindl, M. (eds.) (2007). Bernese GPS Software Version 5.0, Astronomical Institute, University of Bern.
[8] Dach, R., Lutz, S., Fridez, P. and Walser, P. (2015). Bernese GNSS Software, Version 5.2, Astronomical Institute, University of Bern.
[9] Dykowski, P. and Krynski, J. (2015). Time dependent corrections to absolute gravity determinations in the establishment of modern gravity control. Geophysical Research Abstracts, Vol. 17, EGU2015-817, EGU General Assembly 2015, 12 – 17 April, Vienna, Austria.
[10] Dykowski, P. and Krynski J. (2017). Aspects of establishing a modern gravity control: case study Borowa Gora Observatory. Symposium of the IAG Subcommission for Europe (EUREF) held in Wroclaw, Poland, 17–19 May 2017. http://www.euref.eu/symposia/2017Wroclaw/p-14-Dykowski.pdf.
[11] Dykowski, P., Krynski, J. and Sekowski, M. (2018). The use of the A10-020 absolute gravimeter for the establishment and modernization of national gravity controls in Europe. Geophysical Research Abstracts, Vol. 20, EGU2018-2025, EGU General Assembly 2018, 8–13 April, Vienna, Austria.
[12] Dykowski, P., Sekowski M. and Krynski, J. (2015). Evaluation of the new gravity control in Poland. 2015 AGU Fall Meeting, 14–18 December 2015, San Francisco. http://adsabs.harvard.edu/abs/2015AGUFM.G23A1051S.
[13] Engfeldt, A., Lidberg, M., Sekowski, M., Dykowski, P., Krynski, J., Ågren, J., Olsson, P.-A., Bryskhe, H., Steffen, H. and Nielsen, J.E. (2018). RG 2000 – the new gravity reference frame of Sweden. FIG Congress 2018, 6–11 May 2018, Istanbul, Turkey.
[14] Figurski, M. and Nykiel, G. (2017). Investigation of the impact of ITRF2014/IGS14 on the positions of the reference stations in Europe. Acta Geodyn. Geomater., 14,4(188), 401–410. DOI:0.13168/AGG.2017.0021.
[15] Godah, W., Szelachowska, M. and Krynski, J. (2015). Suitability of GRACE-based geopotential models for modelling temporal variations of gravity functionals over Poland and the surrounding areas. XXVI IUGG General Assembly, 22 June – 3 July, Prague, Czech Republic.
[16] Godah,W., Szelachowska, M. and Krynski, J. (2017a). On the analysis of temporal geoid height variations obtained from GRACE-based GGMs over the area of Poland. Acta Geophysica, 64(4), 713–725. DOI: s11600-017-0064-3.
[17] Godah, W., Szelachowska, M. and Krynski J. (2017b). Investigation of geoid height variations and vertical displacements of the Earth surface in the context of the realization of a modern vertical reference system – A case study for Poland. 1st Joint Commission 2 and IGFS Meeting Sympodium GGHS2016 “Gravity, Geoid and Height Systems 2016”, 19–23 September 2016, Thessaloniki, Greece, IAG Symposia, Springer, Berlin, Heidelberg. DOI: 10.1007/1345_2017_15.
[18] Godah, W., Szelachowska, M. and Krynski, J. (2017c). On the estimation of physical height changes using GRACE satellite mission data – A case study of Central Europe. Sympodium of the IAG Subcommission for Europe (EUREF) held in Wroclaw, Poland, 17–19 May 2017. http://www.euref.eu/symposia/2017Wroclaw/02-10-Godah.pdf.
[19] Kadaj, R. and Swieton, T. (2016). Theoretical and applied research in the field of higher geodesy conducted in Rzeszow. Reports on Geodesy and Geoinformatics, 100, 79–100. DOI: rgg-2016-0008.
[20] Klos, A. and Bogusz, J. (2017). An evaluation of velocity estimates with a correlated noise: case study of IGS ITRF2014 European stations. Acta Geodyn. Geomater., 14, 3(187), 261–271. DOI: 10.13168/AGG.2017.0009.
[21] Klos, A., Bogusz, J., Figurski, M. and Kosek, W. (2015). Irregular variations in GPS time series by probability and noise analysis. Survey Review, 47, 342, 163–173. DOI: 10.1179/1752270614Y.0000000133.
[22] Klos, A., Bogusz, J. and Moreaux, G. (2018). Stochastic models in the DORIS position time series: estimates for IDS contribution to ITRF2014. Journal of Geodesy, 92, 743–763, DOI: 10.1007/s00190-017-1092-0.
[23] Konacki, M., Lejba, P., Sybilski, P., Pawlaszek, R., Kozlowski, S., Suchodolski, T., Slonina, M., Litwicki, M., Sybilska, A., Rogowska, B., Kolb, U., Burwitz, V., Baader, J., Groot, P., Bloemen, S., Ratajczak, M., Helminiak, K., Borek, R., Chodosiewicz, P. and Chimicz, A. (2017). The Solaris-Panoptes Global Network of Robotic Telescopes and the Borowiec Satellite Laser Ranging System for SST: A Progress Report. Proceedings of the Advanced Maui Optical and Space Surveillance Technologies (AMOS) Conference, AMOS 2017, http://amostech.com/2017-technical-papers/.
[24] Krynski, J. and Rogowski, J.B. (2015). National Report of Poland to EUREF 2015. Sympodium of the IAG Subcommission for Europe (EUREF) held in Leipzig, Germany, 3–5 June 2015. http://www.euref.eu/symposia/2015Leipzig/06-20-p-Poland.pdf.
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[28] Krynski, J. and Sekowski, M. (2015). Rocznik Astronomiczny na rok 2016. Instytut Geodezji i Kartografii, Warszawa, (ed.) J. Krynski. http://www.igik.edu.pl/pl/a/Rocznik-Astronomiczny-2016.
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[32] Kucharski, D., Kirchner, G., Bennett, J.C., Lachut, M., Sosnica, K., Koshkin, N., Shakun, L., Koidl, F., Steindorfer, M., Wang, P., Fan, C., Han, X., Grunwaldt, L., Wilkinson, M., Rodríguez, J., Bianco, G., Vespe, F., Catalán, M., Salmins, K., del Pino, J.R., Lim, H.-C., Park, E., Moore, C., Lejba, P. and Suchodolski, T. (2017). Photon pressure force on space debris TOPEX/Poseidon measured by Satellite Laser Ranging. Earth and Space Science, 4(10), 661–668.
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Bibliografia

Identyfikator YADDA

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