Comparison of approaches to zenith tropospheric delay determination based on data of atmosphere radio sounding and GNSS observation

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dc.citation.epage32
dc.citation.journalTitleГеодезія, картографія і аерофотознімання : міжвідомчий науково-технічний збірник
dc.citation.spage24
dc.citation.volume88
dc.contributor.affiliationНаціональний університет “Львівська політехніка”
dc.contributor.affiliationУжгородський національний університет
dc.contributor.affiliationLviv Polytechnic National University
dc.contributor.affiliationUzhhorod National University
dc.contributor.authorСавчук, С. Г.
dc.contributor.authorКаблак, Н. І.
dc.contributor.authorХоптар, А. А.
dc.contributor.authorSavchuk, S.
dc.contributor.authorKablak, N.
dc.contributor.authorKhoptar, A.
dc.coverage.placenameЛьвів
dc.date.accessioned2019-11-06T12:28:53Z
dc.date.available2019-11-06T12:28:53Z
dc.date.created2018-02-26
dc.date.issued2018-02-26
dc.format.extent24-32
dc.format.pages9
dc.identifier.citationSavchuk S. Comparison of approaches to zenith tropospheric delay determination based on data of atmosphere radio sounding and GNSS observation / S. Savchuk, N. Kablak, A. Khoptar // Геодезія, картографія і аерофотознімання : міжвідомчий науково-технічний збірник. — Львів : Видавництво Львівської політехніки, 2018. — Том 88. — С. 24–32.
dc.identifier.citationenSavchuk S. Comparison of approaches to zenith tropospheric delay determination based on data of atmosphere radio sounding and GNSS observation / S. Savchuk, N. Kablak, A. Khoptar // Geodesy, cartography and aerial photography : interdepartmental scientific and technical review. — Vydavnytstvo Lvivskoi politekhniky, 2018. — Vol 88. — P. 24–32.
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/45503
dc.language.isoen
dc.publisherВидавництво Львівської політехніки
dc.relation.ispartofГеодезія, картографія і аерофотознімання : міжвідомчий науково-технічний збірник (88), 2018
dc.relation.ispartofGeodesy, cartography and aerial photography : interdepartmental scientific and technical review (88), 2018
dc.relation.referencesAlberding GNSS Status Software, available online at: http://194.42.206.27/cgibin/beacon.cgi?mod=show_map&lang, (date accessed: January 2016 - December 2017).
dc.relation.referencesBernese GNSS Status Software, available online at:http://www.bernese.unibe.ch/download/, (date accessed: January 2016 - December 2017).
dc.relation.referencesDach, R., Lutz, S., Walser, P., Fridez, P. (2015). Bernese GNSS Software Version 5.2. User manual, Astronomical Institute, Universtiy of Bern.
dc.relation.referencesEUREF Permanent GNSS Network server, available online at: http://epncb.oma.be/ftp/obs/, (date accessed: January 2016 – December 2017).
dc.relation.referencesGAMIT/GLOBK, available online at: http://wwwgpsg.mit.edu/~simon/gtgk/, (date accessed: January 2016 – December 2017).
dc.relation.referencesGPS Time Series, available online at: https://gipsyoasis.jpl.nasa.gov/ (date accessed: January 2016 – December 2017)
dc.relation.referencesGregorius, T. (1996). Gipsy-Oasis II: How it works. USA: Department of Geomatics, University of Newcastle upon Tyne.
dc.relation.referencesHerring, T. A., King, R. W, Floyd, M. A. & McClusky, S. C. (2016). Introduction to GAMIT/GLOBK – Release 10.6. USA: Department of Earth, Atmospheric, and Planetary Sciences,Massachusetts Institute of Technology.
dc.relation.referencesKablak, N., Reity, O., Ştefan, O., Rădulescu, A. & Rădulescu, C. (2016). The Remote Monitoring of Earth’s Atmosphere Based on Operative Processing GNSS Data in the UA-EUPOS/ZAKPOS Network of Active Reference Stations, Sustainability, 8(4), 391. doi:10.3390/su8040391.
dc.relation.referencesKablak, N. & Savchuk, S. (2012). Distant monitoring of the atmosphere. Space science and technology, 2(18), 20–25.
dc.relation.referencesNiell, A. E. (1996). Global mapping functions for the atmosphere delay at radio wavelenghth. Journal of Geophysical Research, 101(B2), 3227–3246. doi: 10.1029/95JB03048
dc.relation.referencesNistor, S. & Buda, A. S. (2016). The influence of zenith tropospheric delay on PPP-RTK, Journal of Applied Engineering Sciences, 6(19), 71–76. doi:10.1515/jaes-2016-0010.
dc.relation.referencesPaziak, M. & Zablotskyj, F. (2015). Comparison of the wet component of zenith tropospheric delay derived from GNSS observations with corresponding value from radio sounding. Geodesy, Cartography and Aerial Photography, 81, 16–24.
dc.relation.referencesRies, P, Bertiger, W., Desai, S. & Miller K. (2015). GIPSY 6.4 Release Notes. Jet Propulsion Laboratory, California Institute of Technology Retrieved from https://gipsy-oasis.jpl.nasa.gov/docs/index.php
dc.relation.referencesSaastamoinen, J. (1972). Contribution to the theory of atmospheric refraction. Journal of Geodesy, 105(1), 279–298. doi:10.1007/BF02521844
dc.relation.referencesSavchuk, M. & Zablotskyj, F. (2014). Estimation of the hydrostatic component of zenith tropospheric delay according to the data of radio sounding. Bulletin of Geodesy and Cartography, 6(93), 3–5.
dc.relation.referencesSpace Emergency System in Transcarpathian region, available online at: http://meteognss.net/ (date accessed: January 2016 – December 2017).
dc.relation.referencesTurchin N. & Zablotskyj, F. (2013). Modern approaches to determination of tropospheric delay and its components. Geodesy, Cartography and Aerial Photography, 78, 155–159.
dc.relation.referencesUniversity of Wyoming Department of Atmospheric Science sounding archive, available online at: http://weather.uwyo.edu/upperair/sounding.html (date accessed: January 2016 – December 2017).
dc.relation.referencesZumberge, J., Heflin, M., Jefferson, D., Watkins, M. & Webb, F. (1997). Precise point positioning for the efficient and robust analysis of GPS data from large networks. Journal of Geophysical Research, 102(B3), 5005–5017. doi:10.1029/96JB03860.
dc.relation.referencesenAlberding GNSS Status Software, available online at: http://194.42.206.27/cgibin/beacon.cgi?mod=show_map&lang, (date accessed: January 2016 - December 2017).
dc.relation.referencesenBernese GNSS Status Software, available online at:http://www.bernese.unibe.ch/download/, (date accessed: January 2016 - December 2017).
dc.relation.referencesenDach, R., Lutz, S., Walser, P., Fridez, P. (2015). Bernese GNSS Software Version 5.2. User manual, Astronomical Institute, Universtiy of Bern.
dc.relation.referencesenEUREF Permanent GNSS Network server, available online at: http://epncb.oma.be/ftp/obs/, (date accessed: January 2016 – December 2017).
dc.relation.referencesenGAMIT/GLOBK, available online at: http://wwwgpsg.mit.edu/~simon/gtgk/, (date accessed: January 2016 – December 2017).
dc.relation.referencesenGPS Time Series, available online at: https://gipsyoasis.jpl.nasa.gov/ (date accessed: January 2016 – December 2017)
dc.relation.referencesenGregorius, T. (1996). Gipsy-Oasis II: How it works. USA: Department of Geomatics, University of Newcastle upon Tyne.
dc.relation.referencesenHerring, T. A., King, R. W, Floyd, M. A. & McClusky, S. C. (2016). Introduction to GAMIT/GLOBK – Release 10.6. USA: Department of Earth, Atmospheric, and Planetary Sciences,Massachusetts Institute of Technology.
dc.relation.referencesenKablak, N., Reity, O., Ştefan, O., Rădulescu, A. & Rădulescu, C. (2016). The Remote Monitoring of Earth’s Atmosphere Based on Operative Processing GNSS Data in the UA-EUPOS/ZAKPOS Network of Active Reference Stations, Sustainability, 8(4), 391. doi:10.3390/su8040391.
dc.relation.referencesenKablak, N. & Savchuk, S. (2012). Distant monitoring of the atmosphere. Space science and technology, 2(18), 20–25.
dc.relation.referencesenNiell, A. E. (1996). Global mapping functions for the atmosphere delay at radio wavelenghth. Journal of Geophysical Research, 101(B2), 3227–3246. doi: 10.1029/95JB03048
dc.relation.referencesenNistor, S. & Buda, A. S. (2016). The influence of zenith tropospheric delay on PPP-RTK, Journal of Applied Engineering Sciences, 6(19), 71–76. doi:10.1515/jaes-2016-0010.
dc.relation.referencesenPaziak, M. & Zablotskyj, F. (2015). Comparison of the wet component of zenith tropospheric delay derived from GNSS observations with corresponding value from radio sounding. Geodesy, Cartography and Aerial Photography, 81, 16–24.
dc.relation.referencesenRies, P, Bertiger, W., Desai, S. & Miller K. (2015). GIPSY 6.4 Release Notes. Jet Propulsion Laboratory, California Institute of Technology Retrieved from https://gipsy-oasis.jpl.nasa.gov/docs/index.php
dc.relation.referencesenSaastamoinen, J. (1972). Contribution to the theory of atmospheric refraction. Journal of Geodesy, 105(1), 279–298. doi:10.1007/BF02521844
dc.relation.referencesenSavchuk, M. & Zablotskyj, F. (2014). Estimation of the hydrostatic component of zenith tropospheric delay according to the data of radio sounding. Bulletin of Geodesy and Cartography, 6(93), 3–5.
dc.relation.referencesenSpace Emergency System in Transcarpathian region, available online at: http://meteognss.net/ (date accessed: January 2016 – December 2017).
dc.relation.referencesenTurchin N. & Zablotskyj, F. (2013). Modern approaches to determination of tropospheric delay and its components. Geodesy, Cartography and Aerial Photography, 78, 155–159.
dc.relation.referencesenUniversity of Wyoming Department of Atmospheric Science sounding archive, available online at: http://weather.uwyo.edu/upperair/sounding.html (date accessed: January 2016 – December 2017).
dc.relation.referencesenZumberge, J., Heflin, M., Jefferson, D., Watkins, M. & Webb, F. (1997). Precise point positioning for the efficient and robust analysis of GPS data from large networks. Journal of Geophysical Research, 102(B3), 5005–5017. doi:10.1029/96JB03860.
dc.relation.urihttp://194.42.206.27/cgibin/beacon.cgi?mod=show_map&lang
dc.relation.urihttp://www.bernese.unibe.ch/download/
dc.relation.urihttp://epncb.oma.be/ftp/obs/
dc.relation.urihttp://wwwgpsg.mit.edu/~simon/gtgk/
dc.relation.urihttps://gipsyoasis.jpl.nasa.gov/
dc.relation.urihttps://gipsy-oasis.jpl.nasa.gov/docs/index.php
dc.relation.urihttp://meteognss.net/
dc.relation.urihttp://weather.uwyo.edu/upperair/sounding.html
dc.rights.holder© Національний університет “Львівська політехніка”, 2018
dc.subjectабсолютний метод точного позиціонування (Precise Point Positioning
dc.subjectPPP)
dc.subjectзенітна тропосферна затримка (Zenith Tropospheric Delay
dc.subjectZTD )
dc.subjectрадіозондування атмосфери
dc.subjectGNSS-спостереження
dc.subjectмоніторинг атмосфери
dc.subjectprecise point positioning (PPP)
dc.subjectzenith tropospheric delay ( ZTD )
dc.subjectatmospheric radio sounding
dc.subjectGNSS-observation
dc.subjectatmospheric monitoring
dc.subject.udc528.2./.3
dc.titleComparison of approaches to zenith tropospheric delay determination based on data of atmosphere radio sounding and GNSS observation
dc.title.alternativeПорівняння підходів визначення зенітної тропосферної затримки за даними радіозондування атмосфери та GNSS-спостережень
dc.typeArticle

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Геодезія, картографія і аерофотознімання. – 2018. – Випуск 88