Geodynamic Database for Russian Platform
Transactions of IAA RAS, issue 71, 34–39 (2024)
DOI: 10.32876/ApplAstron.71.34-39
Keywords: GNSS, database
About the paper Full textAbstract
The work deals with the development of a geodynamic database that accumulates data from GNSS stations included in various networks, both scientific and commercial. The database is used for geodynamic research of the East European Craton, which limits the positions of the stations included. Due to the fact that the database contains more than eight hundred stations, manual processing and visualization of all the data proves to be too laborious. The database is developed on the basis of the database brought into being at the Pulkovo Observatory, but with the use of modern methods for storing, processing and visualizing data. This greatly simplifies the process of visualizing station positions and their data, reducing the need for time-consuming manual processing. The raw data processing consists of GNSS processing, and further analysis of a series of station positions. The downloading of station data and the GNSS processing the data in the base has been automated. Due to the higher degree of automation, the support for processing such a large number of stations is expected to be simplified, which will reduce the delays between the availability of raw data, as well as station positions and velocities.
Citation
P. V. Movsesyan, N. V. Scherbakova, V. L. Gorshkov, S. D. Petrov, D. A. Trofimov. Geodynamic Database for Russian Platform // Transactions of IAA RAS. — 2024. — Issue 71. — P. 34–39.
@article{movsesyan2024,
abstract = {The work deals with the development of a geodynamic database that accumulates data from GNSS stations included
in various networks, both scientific and commercial. The database is used for geodynamic research of the East European Craton, which limits the positions of the stations included. Due to the fact that the database contains more than eight hundred stations, manual processing and visualization of all the data proves to be too laborious.
The database is developed on the basis of the database brought into being at the Pulkovo Observatory, but with the
use of modern methods for storing, processing and visualizing data. This greatly simplifies the process of visualizing station positions and their data, reducing the need for time-consuming manual processing. The raw data processing consists of GNSS processing, and further analysis of a series of station positions.
The downloading of station data and the GNSS processing the data in the base has been automated. Due to the
higher degree of automation, the support for processing such a large number of stations is expected to be simplified,
which will reduce the delays between the availability of raw data, as well as station positions and velocities.},
author = {P.~V. Movsesyan and N.~V. Scherbakova and V.~L. Gorshkov and S.~D. Petrov and D.~A. Trofimov},
doi = {10.32876/ApplAstron.71.34-39},
issue = {71},
journal = {Transactions of IAA RAS},
keyword = {GNSS, database},
pages = {34--39},
title = {Geodynamic Database for Russian Platform},
url = {http://iaaras.ru/en/library/paper/2200/},
year = {2024}
}
TY - JOUR
TI - Geodynamic Database for Russian Platform
AU - Movsesyan, P. V.
AU - Scherbakova, N. V.
AU - Gorshkov, V. L.
AU - Petrov, S. D.
AU - Trofimov, D. A.
PY - 2024
T2 - Transactions of IAA RAS
IS - 71
SP - 34
AB - The work deals with the development of a geodynamic database that
accumulates data from GNSS stations included in various networks,
both scientific and commercial. The database is used for geodynamic
research of the East European Craton, which limits the positions of
the stations included. Due to the fact that the database contains
more than eight hundred stations, manual processing and visualization
of all the data proves to be too laborious. The database is
developed on the basis of the database brought into being at the
Pulkovo Observatory, but with the use of modern methods for storing,
processing and visualizing data. This greatly simplifies the process
of visualizing station positions and their data, reducing the need
for time-consuming manual processing. The raw data processing
consists of GNSS processing, and further analysis of a series of
station positions. The downloading of station data and the GNSS
processing the data in the base has been automated. Due to the
higher degree of automation, the support for processing such a large
number of stations is expected to be simplified, which will reduce
the delays between the availability of raw data, as well as station
positions and velocities.
DO - 10.32876/ApplAstron.71.34-39
UR - http://iaaras.ru/en/library/paper/2200/
ER -