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2022 Journal Impact Factor - 0.6
2022 CiteScore - 1.7
ISSN 2083-6473
ISSN 2083-6481 (electronic version)
Editor-in-Chief
Associate Editor
Prof. Tomasz Neumann
Published by
TransNav, Faculty of Navigation
Gdynia Maritime University
3, John Paul II Avenue
81-345 Gdynia, POLAND
e-mail transnav@umg.edu.pl
Analysis of Tropospheric Contribution to GPS Positioning Error During Tropospheric Cyclone Marcus in 2018
ABSTRACT: GNSS positioning performance assessment is essential for sustainable development of a growing number of GNSS-based technology and socio-economic applications. Case-studies of GNSS positioning performance in critical environments and applications scenarios reveals vulnerabilities of the GNSS Positioning, Navigation, and Timing (PNT) services, and suggest mitigation techniques and GNSS application risk containment. Here we address the case of GPS positioning performance during a devastating tropical cyclone Marcus that hit the greater area of the city of Darwin, Australia in 2018. We identified specific statistical properties of time series of tropospheric contribution to GPS northing, easting, and vertical positioning error that may contribute to understanding of tropospheric effects on GPS positioning performance during a massive weather deterioration in maritime and coastal areas, and analysed their adversarial effects on GNSS-based maritime applications.
KEYWORDS: Global Navigation Satellite System (GNSS), Global Positioning System (GPS), Positioning, Navigation and Timing (PNT), Software-Defined Radio (SDR), Cyclone Marcus, Port Darwin, NASA Earth Observatory, Tropospheric Correction
REFERENCES
BOM. (2018). Severe Tropical Cyclone Marcus. Australian Government, Buraeu of Meteorology (BOM). Melbourne. VIC. Available at: http://www.bom.gov.au/announcements/ sevwx/nt/nttc20180316.shtml
Filić, M, Grubišić, L, and Filjar, R. (2018). Improvement of standard GPS position estimation algorithm through utilization of Weighted Least-Square approach. Proc of 11th Annual Baška GNSS Conference, 7-19. Baška, Krk Island, Croatia. Available at: https://bit.ly/2sLuR82
GSA. (2018). Report on maritime and inland waterways user needs and requirements. European GNSS Agency (GSA). Prague, Czechia. Available at: https://bit.ly/2C7WMVp
Oxley, A. (2017). Uncertainties in GPS positioning: A mathematical discourse. Academic Press/Elsevier. London, UK.
Rumora, I, Jukić, O, Filić, M, and Filjar, R. (2018). A study of GPS positioning error associated with tropospheric delay during Numa Mediterranean cyclone. Int J for Transp and Traff Eng, 8(3), 282-293. doi: 10.7708/ijtte.2018.8(3).03 - doi:10.7708/ijtte.2018.8(3).03
Schueller,T. (2001). On Ground-Based GPS Tropospheric Delay Estimation (PhD thesis). University of Bundeswehr. Neubiberg, Germany.
Shumway, R H, and Stoffer, D S. (2017). Time Series Analysis and Its Applications with R Examples. Springer Verlag. New York, NY. Available at: http://db.ucsd.edu/static/TimeSeries.pdf - doi:10.1007/978-3-319-52452-8
Citation note:
Sikirica N., Horvat M., Špoljar D., Rumora I.: Analysis of Tropospheric Contribution to GPS Positioning Error During Tropospheric Cyclone Marcus in 2018. TransNav, the International Journal on Marine Navigation and Safety of Sea Transportation, Vol. 14, No. 2, doi:10.12716/1001.14.02.10, pp. 343-348, 2020
Authors in other databases:
57201704142
bmj16wcAAAAJMarko Horvat:
Ivan Rumora:
Other publications of authors:
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