Estimation of velocities using GNSS observations in the GNSS Data Analysis Center of GAO NASU for further geodynamical studies

Global satellite navigation systems (GNSS) has firmly entered not only in the daily life of society, but also widely used in various fields of scientific application. The possibility of conducting continuous observations at permanent GNSS stations, which do not depend on weather conditions, allowed...

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Main Author: M. V. Ishchenko
Format: Article
Language:English
Published: National Aviation University 2017-10-01
Series:Вісник Астрономічної школи
Subjects:
Online Access:http://astro.nau.edu.ua/issues/2017_V.13_Iss.1/Ishchenko.html
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spelling doaj-33d91e9b9e2f4ed29eab26babf0110ce2020-11-24T21:40:40ZengNational Aviation UniversityВісник Астрономічної школи1607-28552411-66022017-10-01131485310.18372/2411-6602.13.082411-6602.13.08Estimation of velocities using GNSS observations in the GNSS Data Analysis Center of GAO NASU for further geodynamical studiesM. V. Ishchenko0Main astronomical observatory of NASU, Akademika Zabolotnoho St. 27, 03143 Kyiv, UkraineGlobal satellite navigation systems (GNSS) has firmly entered not only in the daily life of society, but also widely used in various fields of scientific application. The possibility of conducting continuous observations at permanent GNSS stations, which do not depend on weather conditions, allowed to accumulate long periods of observations. All this led to the acquisition of precision time coordinate with accuracy of several millimeters. One of the first steps in the study of the local level of the crustal deformation is the estimation of the values of the displacement velocities of the GNSS stations. One of the simplest and most widespread ways of representing the horizontal movements of the earth's surface occurring within the region under study is the acquisition of a velocity field. GNSS data analysis center of GAO NASU received estimates of velocity vectors for 233 GNSS stations (in coordinate system IGb08), 202 of which are located in Ukraine. The maximum assessment period was from December 7, 1997 – January 28, 2017, or 6,993 days (approximately 20 years). The rate estimation is based on GNSS observations of state, academic, university and commercial networks of Ukraine. The velocity vectors were obtained using the Bernese GNSS Software Ver. 5.2 (ADDNEQ2 and FODITS software modules were used) recommended by the GNSS Data Analysis Centers, in particular by the EUREF European Center for research of this type. The obtained estimates of the velocity vectors fully coincide with the movement of the Eurasian lithospheric plate. For further use in studies on the deformation of the Earth's crust, each GNSS station should be thoroughly tested for possible effects (caused by the operation of the apparatus, human factor, etc.), as well as to satisfy the minimum observation period of three years.http://astro.nau.edu.ua/issues/2017_V.13_Iss.1/Ishchenko.htmlGlobal Navigation Satellite Systemspermanent stationvelocity vectorADDNEQ2FODITS
collection DOAJ
language English
format Article
sources DOAJ
author M. V. Ishchenko
spellingShingle M. V. Ishchenko
Estimation of velocities using GNSS observations in the GNSS Data Analysis Center of GAO NASU for further geodynamical studies
Вісник Астрономічної школи
Global Navigation Satellite Systems
permanent station
velocity vector
ADDNEQ2
FODITS
author_facet M. V. Ishchenko
author_sort M. V. Ishchenko
title Estimation of velocities using GNSS observations in the GNSS Data Analysis Center of GAO NASU for further geodynamical studies
title_short Estimation of velocities using GNSS observations in the GNSS Data Analysis Center of GAO NASU for further geodynamical studies
title_full Estimation of velocities using GNSS observations in the GNSS Data Analysis Center of GAO NASU for further geodynamical studies
title_fullStr Estimation of velocities using GNSS observations in the GNSS Data Analysis Center of GAO NASU for further geodynamical studies
title_full_unstemmed Estimation of velocities using GNSS observations in the GNSS Data Analysis Center of GAO NASU for further geodynamical studies
title_sort estimation of velocities using gnss observations in the gnss data analysis center of gao nasu for further geodynamical studies
publisher National Aviation University
series Вісник Астрономічної школи
issn 1607-2855
2411-6602
publishDate 2017-10-01
description Global satellite navigation systems (GNSS) has firmly entered not only in the daily life of society, but also widely used in various fields of scientific application. The possibility of conducting continuous observations at permanent GNSS stations, which do not depend on weather conditions, allowed to accumulate long periods of observations. All this led to the acquisition of precision time coordinate with accuracy of several millimeters. One of the first steps in the study of the local level of the crustal deformation is the estimation of the values of the displacement velocities of the GNSS stations. One of the simplest and most widespread ways of representing the horizontal movements of the earth's surface occurring within the region under study is the acquisition of a velocity field. GNSS data analysis center of GAO NASU received estimates of velocity vectors for 233 GNSS stations (in coordinate system IGb08), 202 of which are located in Ukraine. The maximum assessment period was from December 7, 1997 – January 28, 2017, or 6,993 days (approximately 20 years). The rate estimation is based on GNSS observations of state, academic, university and commercial networks of Ukraine. The velocity vectors were obtained using the Bernese GNSS Software Ver. 5.2 (ADDNEQ2 and FODITS software modules were used) recommended by the GNSS Data Analysis Centers, in particular by the EUREF European Center for research of this type. The obtained estimates of the velocity vectors fully coincide with the movement of the Eurasian lithospheric plate. For further use in studies on the deformation of the Earth's crust, each GNSS station should be thoroughly tested for possible effects (caused by the operation of the apparatus, human factor, etc.), as well as to satisfy the minimum observation period of three years.
topic Global Navigation Satellite Systems
permanent station
velocity vector
ADDNEQ2
FODITS
url http://astro.nau.edu.ua/issues/2017_V.13_Iss.1/Ishchenko.html
work_keys_str_mv AT mvishchenko estimationofvelocitiesusinggnssobservationsinthegnssdataanalysiscenterofgaonasuforfurthergeodynamicalstudies
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