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REFERENCES [1] Admiralty List of Radio Signals’, 2013/2014, NP 282, Vol. 2, The United Kingdom Hydrographic Office. [2] Hofmann-Wellenhof B., Lichtenegger H, Wasle E., GNSS — Global Navigation Satellite Systems GPS, GLONASS, Galileo, and more, Wien — New York 2008. [3] Januszewski J., Perspectives of the development of navigational and augmentation satellite systems in near and further future, ‘The Review of Telecommunication — News of Telecommunication’, 2014, No. 5, pp. 116–123. [4] Kaplan E. D., Hegarty C. J., Understanding GPS Principles and Applications

BIBLIOGRAPHY [1] Falone R., Stallo C., Gambi E., Spinsante S., “SDR GNSS receivers: A comparative overview of different approaches,” 2014 IEEE Metrology for Aerospace , Benevento, 2014, pp. 326-331. doi: 10.1109/MetroAeroSpace.2014.6865943 [2] Müller M., “Behind the Veil: A Peek at GNU Radio’s Buffer Architecture”, The GNU Radio Foundation, 5 Jan 2017, www.gnuradio.org/blog/2017-01-05-buffers/ [3] Nuand LLC, “bladeRF USB 3.0 Software Defined Radio”, 23 Mar 2019, www.nuand.com/bladeRF-brief.pdf , [4] Schmid T., Sekkat O., B. Srivastava M., “An experimental

References Brzostowski K., Foks-Ryznar A., Sitek P., Zdunek R. (2010). Ocena przydatności wybranych modułów GNSS na potrzeby lokalizacji elementów systemu PROTEUS, Geodeta. Magazyn Geoinformacyjny , Vol.12 (187), 12-17. Darakchiev R., Sitek P., Brzostowski K., Foks-Ryznar A., Kalarus M., Zdunek R. (2010), Moduły lokalizacji oraz testy chipów GNSS dla elementów systemu PROTEUS. Elektronika - Konstrukcje, Technologie, Zastosowania , Vol.11, 122-126. Fastrax UP500 technical description http://www.fastraxgps.com Kalarus M., Sitek P., Brzostowski K., Foks-Ryznar A

6. REFERENCES Abd Rabbou, M. and El-Rabbany, A. (2015), “Precise Point Positioning Using Multi-Constellation GNSS Observations for Kinematic Applications” . Journal of Applied Geodesy, 9, 15-26. http://dx.doi.org/10.1515/jag-2014-0021 Abd Rabbou M, El-Rabbany A (2016), “Performance analysis of precise point positioning using multi-constellation GNSS: GPS, GLONASS, Galileo and BeiDou”. Surveying review, May 2016 Bos, M.S. and Scherneck, H.-G. (2011), “Ocean Tide Loading Provider” . http://holt.oso.chalmers.se/loading/ Bisnath, S. B. and Gao, Y. (2009

References [1] Akos D. M., Normark P. L., Enge P., Hansson A., Rosenlind A., Real-Time GPS Software Radio Receiver, Proceedings of the 2001 National Technical Meeting of the Institute of Navigation, Long Beach, CA, USA, 2001, pp. 809-816. [2] Balaei A. T., Motella B., Dempster A., A preventative approach to mitigating CW interference in GPS receivers, ‘GPS Solution’, 2008, Vol. 12, Issue 3, pp. 199-209. [3] Borio D., Dovis F., Kuusniemi H., Lo Presti L., Impact and Detection of GNSS Jammers on Consumer Grade Satellite Navigation Receivers, Proceedings of the IEEE

-139. Hofmann-Wellenhof B., Lichtenegger H., Wasle E. (2008). GNSS - Global Navigation Satellite Systems, Springer-Verlag Wien, Austria. IGS Working Group. (2008). IGS antenna files. ftp://igscb.jpl.nasa.gov/pub/station/genereal/antenna_README.pdf Mader G. L. (1999). GPS Antenna Calibration at the National Geodetic Survey. Journal of Geodesy , Volume 3, Number 1/July. Magellan Corporation Ashtech Precision Products. (1998). Ashtech Solutions Tutorial. Printed in USA. Magellan Navigation Inc. (2008). GNSS Solutions Reference Manual. Printed in USA. Rothacher M. (2001

City, USA, September 19-22, 1113-1123. Odijk, D., and P. J. G. Teunissen (2008). ADOP in closed form for a hierarchy of multi-frequency single-baseline GNSS models. Accepted for Journal of Geodesy . Priestley, M.B. (1981). Spectral analysis and time series . Probability and mathematical statistics, a series of monographs and textbooks, Academic Press Ltd, London/San Diego, vols. 1 and 2. Teunissen, P.J.G. (1995). The least-squares ambiguity decorrelation adjustment: A method for fast GPS integer ambiguity estimation. Journal of Geodesy 70, 65-82. Teunissen, P

Resolution Effectiveness with use of LAMBDA De-Correlation Method. Geomatics and Environmental Engineering, 5(2), 81-87. Skorupa, B. & Góral, W. (2015). Położenie i prędkość satelitów GNSS na postawie uogólnionego zagadnienia dwóch stałych centrów grawitacji. Kraków: Wydawnictwa AGH.

References Cronin V., Resor P. (2017) GPS Strain & Earthquakes: Explanation of Strain Calculator Output https://serc.carleton.edu/getsi/teaching_materials/gps_strain/unit4.html. Accessed (21/06/2018). Dach R., Lutz S., Walser P., Fridez P. (2015) Bernese GNSS Software Version 5.2, Astronomical Institute, University of Berne. Dach R., Fridez P. (2017) Tutorial for Bernese GNSS Software Ver. 5.2, Astronomical Institute, University of Berne. DeMets C., Gordon R., Argus D., Stein S. (1994) Effect of recent revisions to the geomagnetic reversal timescale on estimates

References Bruyninx, C. (2007), Comparing GPS-only with GPS+GLONASS positioning in a regional per­manent GNSS network GPS Solutions 11:97-106, DOI 10.1007/s10291-006-0041-9. Dach, R., S. Hugentobler, P. Fridez, M. Meindl (eds.) (2007), Bernese GPS Software Version 5.0. Astronomical Institute, University of Berne. Dach, R., R. Schmid, M. Schmitz, D. Thaller, S. Schaer, S. Lutz, P. Steigenberger, G. Wubbena, G. Beutler (2010), Improved antenna phase center models for GLONASS. GPS Solutions, 15:49-65, DOI 10.1007/s10291-010-0169-5. EPN (2013) <http