Determination of plumb lines with using trigonometric levelling and GNSS measurements

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dc.citation.epage19
dc.citation.journalTitleГеодезія, картографія і аерофотознімання
dc.citation.spage12
dc.citation.volume89
dc.contributor.affiliationНаціональний університет “Львівська політехніка”
dc.contributor.affiliationLviv Polytechnic National University
dc.contributor.authorДвуліт, П. Д.
dc.contributor.authorДвуліт, З. П.
dc.contributor.authorСідоров, І. С.
dc.contributor.authorDvulit, P.
dc.contributor.authorDvulit, Z.
dc.contributor.authorSidorov, I.
dc.coverage.placenameЛьвів
dc.coverage.placenameLviv
dc.date.accessioned2020-02-21T08:54:21Z
dc.date.available2020-02-21T08:54:21Z
dc.date.created2019-02-28
dc.date.issued2019-02-28
dc.format.extent12-19
dc.format.pages8
dc.identifier.citationDvulit P. Determination of plumb lines with using trigonometric levelling and GNSS measurements / P. Dvulit, Z. Dvulit, I. Sidorov // Geodesy, cartography and aerial photography. — Lviv : Lviv Politechnic Publishing House, 2019. — Vol 89. — P. 12–19.
dc.identifier.citationenDvulit P. Determination of plumb lines with using trigonometric levelling and GNSS measurements / P. Dvulit, Z. Dvulit, I. Sidorov // Geodesy, cartography and aerial photography. — Lviv : Lviv Politechnic Publishing House, 2019. — Vol 89. — P. 12–19.
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/45905
dc.language.isoen
dc.publisherВидавництво Львівської політехніки
dc.publisherLviv Politechnic Publishing House
dc.relation.ispartofГеодезія, картографія і аерофотознімання (89), 2019
dc.relation.ispartofGeodesy, cartography and aerial photography (89), 2019
dc.relation.referencesBiro, P. (1983). Time variations of height and gravity,
dc.relation.referencesAk. Kiado.
dc.relation.referencesBrovar, B. V., Jurkina, M. I., and oth. (2010).
dc.relation.referencesGravimetry and geodesy. Nauchnij mir.
dc.relation.referencesBrovar, V. V. (1983). Gravitational field in engineering
dc.relation.referencesgeodesy problems. Nedra.
dc.relation.referencesCeylan, A. (2009). Determination of the deflection of
dc.relation.referencesvertical components via GPS and leveling
dc.relation.referencesmeasurement: A case study of a GPS test network in
dc.relation.referencesKonya, Turkey. Scientific Research and Essay, 4
dc.relation.references(12), 1438–1444.
dc.relation.referencesCzarnecki, K. (2010). Geodezja wspolczesna. Gall.
dc.relation.referencesDvulit, P. D. (1998). Gravimetry. Lviv astronomical
dc.relation.referencesgeodesic partnership.
dc.relation.referencesDvulit, P. D. (2008). Physical geodesy. Expres.
dc.relation.referencesDvulit, P. D., Holubinka, Y. I. (2005). Determination of
dc.relation.referencestemporal deflections by ground gravimetric data and
dc.relation.referencessatellite measurements. Herald of Geodesy and
dc.relation.referencesCartography 2, 12–21.
dc.relation.referencesDvulit, P. D., Holubinka, Y. I. (2008). About
dc.relation.referencesdetermination of gravimetric components of
dc.relation.referencesdeviations of vertical lines. Herald of Geodesy and
dc.relation.referencesCartography, 2, 7–9.
dc.relation.referencesEremeev, V. F., & Jurkina, M. I. (1972). Theory of
dc.relation.referencesheights in the gravitational field of the Earth.
dc.relation.referencesNedra.
dc.relation.referencesHeiskanen, W. A., & Moritz, H. (1981). Physical
dc.relation.referencesgeodesy. Graz.
dc.relation.referencesHradilek, L. (1963). Theoretische Begrundung der
dc.relation.referencesMethode fur die Refraktions_ und Lotabweichungs
dc.relation.referencesbestimmung auf jedem Punkte eines
dc.relation.referencestrigonometrischen Hohennetres. Studia geophysica
dc.relation.referenceset geodaetica, 7, 2, 118–125.
dc.relation.referencesJakovlev, N. V. (1989). Higher geodesy. Nedra.
dc.relation.referencesJordan, Eggert, Kneissl (1969). Handbuch der
dc.relation.referencesVermessungkunde. Band VI. Stuttgart.
dc.relation.referencesLitynskyi, V. O., & Perii, S. S. (2006). Trigonometric
dc.relation.referenceslevelling in the course of geodesic networks of
dc.relation.referencescondensation. Modern achievements of geodesic
dc.relation.referencesscience and production in Ukraine: Collection of
dc.relation.referencesscientific works ZHT UTHK, II, 125–133.
dc.relation.referencesMolodenskij, M. S., Eremeev, V. F., & Jurkina, M. I.
dc.relation.references(1960). Methods of studying the external
dc.relation.referencesgravitational field and the figure of the Earth.
dc.relation.referencesProceedings CNIIGAiK, 131.
dc.relation.referencesOgorodova, L. V. (2006). Higher geodesy. Geodezkartizdat.
dc.relation.referencesTorge, W. (1989). Gravimetry. Walter de Gruyter.
dc.relation.referencesTretiak, K. R., & Sidorov, I. S. (2005). Optimization of
dc.relation.referencesthe construction of the geodesic network of the
dc.relation.referencesDniester HPSS by satellite radionavigation
dc.relation.referencestechnologies. Modern achievements of geodesic
dc.relation.referencesscience and production, 207–219.
dc.relation.referencesTretyak, K., Periy, S., Sidorov, I., & Babiy, L. (2015).
dc.relation.referencesHigh accuracy satellite and field measurements of
dc.relation.referenceshorizontal and vertical displacements of control
dc.relation.referencesgeodetic network on Dniester Hydroelectric Pumped
dc.relation.referencesPower Station (HPPS). Geomatics and
dc.relation.referencesenvironmental engineering, 1, 83–96.
dc.relation.referencesenBiro, P. (1983). Time variations of height and gravity,
dc.relation.referencesenAk. Kiado.
dc.relation.referencesenBrovar, B. V., Jurkina, M. I., and oth. (2010).
dc.relation.referencesenGravimetry and geodesy. Nauchnij mir.
dc.relation.referencesenBrovar, V. V. (1983). Gravitational field in engineering
dc.relation.referencesengeodesy problems. Nedra.
dc.relation.referencesenCeylan, A. (2009). Determination of the deflection of
dc.relation.referencesenvertical components via GPS and leveling
dc.relation.referencesenmeasurement: A case study of a GPS test network in
dc.relation.referencesenKonya, Turkey. Scientific Research and Essay, 4
dc.relation.referencesen(12), 1438–1444.
dc.relation.referencesenCzarnecki, K. (2010). Geodezja wspolczesna. Gall.
dc.relation.referencesenDvulit, P. D. (1998). Gravimetry. Lviv astronomical
dc.relation.referencesengeodesic partnership.
dc.relation.referencesenDvulit, P. D. (2008). Physical geodesy. Expres.
dc.relation.referencesenDvulit, P. D., Holubinka, Y. I. (2005). Determination of
dc.relation.referencesentemporal deflections by ground gravimetric data and
dc.relation.referencesensatellite measurements. Herald of Geodesy and
dc.relation.referencesenCartography 2, 12–21.
dc.relation.referencesenDvulit, P. D., Holubinka, Y. I. (2008). About
dc.relation.referencesendetermination of gravimetric components of
dc.relation.referencesendeviations of vertical lines. Herald of Geodesy and
dc.relation.referencesenCartography, 2, 7–9.
dc.relation.referencesenEremeev, V. F., & Jurkina, M. I. (1972). Theory of
dc.relation.referencesenheights in the gravitational field of the Earth.
dc.relation.referencesenNedra.
dc.relation.referencesenHeiskanen, W. A., & Moritz, H. (1981). Physical
dc.relation.referencesengeodesy. Graz.
dc.relation.referencesenHradilek, L. (1963). Theoretische Begrundung der
dc.relation.referencesenMethode fur die Refraktions_ und Lotabweichungs
dc.relation.referencesenbestimmung auf jedem Punkte eines
dc.relation.referencesentrigonometrischen Hohennetres. Studia geophysica
dc.relation.referencesenet geodaetica, 7, 2, 118–125.
dc.relation.referencesenJakovlev, N. V. (1989). Higher geodesy. Nedra.
dc.relation.referencesenJordan, Eggert, Kneissl (1969). Handbuch der
dc.relation.referencesenVermessungkunde. Band VI. Stuttgart.
dc.relation.referencesenLitynskyi, V. O., & Perii, S. S. (2006). Trigonometric
dc.relation.referencesenlevelling in the course of geodesic networks of
dc.relation.referencesencondensation. Modern achievements of geodesic
dc.relation.referencesenscience and production in Ukraine: Collection of
dc.relation.referencesenscientific works ZHT UTHK, II, 125–133.
dc.relation.referencesenMolodenskij, M. S., Eremeev, V. F., & Jurkina, M. I.
dc.relation.referencesen(1960). Methods of studying the external
dc.relation.referencesengravitational field and the figure of the Earth.
dc.relation.referencesenProceedings CNIIGAiK, 131.
dc.relation.referencesenOgorodova, L. V. (2006). Higher geodesy. Geodezkartizdat.
dc.relation.referencesenTorge, W. (1989). Gravimetry. Walter de Gruyter.
dc.relation.referencesenTretiak, K. R., & Sidorov, I. S. (2005). Optimization of
dc.relation.referencesenthe construction of the geodesic network of the
dc.relation.referencesenDniester HPSS by satellite radionavigation
dc.relation.referencesentechnologies. Modern achievements of geodesic
dc.relation.referencesenscience and production, 207–219.
dc.relation.referencesenTretyak, K., Periy, S., Sidorov, I., & Babiy, L. (2015).
dc.relation.referencesenHigh accuracy satellite and field measurements of
dc.relation.referencesenhorizontal and vertical displacements of control
dc.relation.referencesengeodetic network on Dniester Hydroelectric Pumped
dc.relation.referencesenPower Station (HPPS). Geomatics and
dc.relation.referencesenenvironmental engineering, 1, 83–96.
dc.subjectтригонометричне нівелювання
dc.subjectGNSS-вимірювання
dc.subjectвертикальна рефракція
dc.subjectвідхилення прямовисних ліній
dc.subjectгравітаційне поле Землі
dc.subjecttrigonometric levelling
dc.subjectGNSS-measurement
dc.subjectvertical refraction
dc.subjectthe deviation of the vertical lines
dc.subjectthe gravitational field of the Earth
dc.subject.udc528.48
dc.titleDetermination of plumb lines with using trigonometric levelling and GNSS measurements
dc.title.alternativeВизначення відхилень прямовисних ліній з використанням тригонометричного нівелювання та GNSS-вимірювань
dc.typeArticle

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Геодезія, картографія і аерофотознімання. – 2019. – Випуск 89