Журнал

About Editorial Board Information for authors and reviewers Publication ethics Contacts User Account: send / review a manuscript
Archive
Volume 21, 2024
Number 1
Volume 20, 2023
Number 1 Number 2 Number 3 Number 4 Number 5 Number 6
Volume 19, 2022
Number 1 Number 2 Number 3 Number 4 Number 5 Number 6
Volume 18, 2021
Number 1 Number 2 Number 3 Number 4 Number 5 Number 6
Volume 17, 2020
Number 1 Number 2 Number 3 Number 4 Number 5 Number 6 Number 7
Volume 16, 2019
Number 1 Number 2 Number 3 Number 4 Number 5 Number 6
Volume 15, 2018
Number 1 Number 2 Number 3 Number 4 Number 5 Number 6 Number 7
Volume 14, 2017
Number 1 Number 2 Number 3 Number 4 Number 5 Number 6 Number 7
Volume 13, 2016
Number 1 Number 2 Number 3 Number 4 Number 5 Number 6
Volume 12, 2015
Number 1 Number 2 Number 3 Number 4 Number 5 Number 6
Volume 11, 2014
Number 1 Number 2 Number 3 Number 4
Volume 10, 2013
Number 1 Number 2 Number 3 Number 4
Volume 9, 2012
Number 1 Number 2 Number 3 Number 4 Number 5
Volume 8, 2011
Number 1 Number 2 Number 3 Number 4
Volume 7, 2010
Number 1 Number 2 Number 3 Number 4
Issue 6, 2009
Volume 1 Volume 2
Issue 5, 2008
Volume 1 Volume 2
Issue 4, 2007
Volume 1 Volume 2
Issue 3, 2006
Volume 1 Volume 2
Issue 2, 2005
Volume 1 Volume 2
Issue 1, 2004
Volume 1
Search
Find:
русский
ISSN 2070-7401 (Print), ISSN 2411-0280 (Online)
Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa
CURRENT PROBLEMS IN REMOTE SENSING OF THE EARTH FROM SPACE

  

Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 2017, Vol. 14, No. 3, pp. 158-172

Data management of global navigation satellite system for complex study of modern geodynamic processes in Far East of Russia

A.А. Sorokin 1 , S.P. Korolev 1 , N.V. Shestakov 2, 3 , S.I. Malkovsky 1 , G.I. Tsoy 1 , V.V. Pupatenko 4 
1 Computing Center FEB RAS, Khabarovsk, Russia
2 Institute of Applied Mathematics FEB RAS, Vladivostok, Russia
3 Far Eastern Federal University, Vladivostok, Russia
4 Institute of Tectonics and Geophysics FEB RAS, Khabarovsk, Russia
Accepted: 14.03.2017
DOI: 10.21046/2070-7401-2017-14-3-158-172
Modern geodynamic processes are an integral part of the Earth`s evolution, and they make a huge impact on human evolution. The lithospheric plates movement and interaction spawn seismic and volcanic activity, tsunami, landslides and other hazardous natural phenomena. The need to analyze reasons and consequences of hazardous natural events requires a research involving the processing and analysis of a large amount of heterogeneous data from various sources, including global navigation satellite systems (GNSS) data. None of existing observation networks can provide all required data for scientists, especially at the regional scale, where the density of the sites of global observation network is not sufficient for science studies. In these circumstances, the problem of interaction between multiple international data centers arises implying the need to work with large amounts of heterogeneous and multi-format data arrays.
The paper gives a description of an automated information system for data management of a GNSS network developed and installed by FEB RAS for the purpose of complex study of modern geodynamic processes in the Far East of Russia and North-East Asia.
Keywords: GNSS observations, GLONASS/GPS, geodynamic studies, measurement data, data archive, AIS “Signal”
Full text

References:

  1. Bykov V.G., Bormotov V.A., Kokovkin A.A., Vasilenko N.F., Prytkov A.S., Gerasimenko M.D., Shestakov N.V., Kolomiets A.G., Sorokin A.P., Sorokina A.T., Serov M.A., Seliverstov N.I., Magus’kin M.A., Levin V.E., Bakhtiarov V.F., San’kov V.A., Lukhnev A.V., Miroshnichenko A.I., Ashurkov S.V., Byzov L.M., Duchkov A.D., Timofeev V.Yu., Gornov P.Yu., Ardyukov D.G., Nachalo formirovaniya edinoi seti geodinamicheskikh nablyudenii DVO RAN (Forming a unified observation network for geodynamic monitoring in FEB RAS), Vestnik of the Far East Branch of the Russian Academy of Sciences, 2009, No. 4, pp. 83–93
  2. Levin V.E., GPS monitoring of recent crustal movements in Kamchatka and the Commander Islands during 1997–2007, Journal of Volcanology and Seismology, 2009, Vol. 3, Issue 3, pp. 200–209.
  3. Perevalova N.P., Shestakov N.V., Voeykov S.V., Bykov V.G., Gerasimenko M.D., Park P.H., Issledovanie rasprostraneniya ionosfernykh vozmushchenii, vyzvannykh zemletryaseniem Tohoku, v dal'nei ot ochaga zone (Studying far-field propagation of ionospheric disturbances generated by the Tohoku earthquake), Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 2016, Vol. 13, No. 1, pp. 186–196.
  4. Khanchuk A.I., Konovalov A.V., Sorokin A.A., Korolyov S.P., Gavrilov A.V., Bormotov V.A., Serov M.A., Instrumental'noe i informatsionno-tekhnologicheskoe obespechenie seismologicheskikh nablyudenii na Dal'nem Vostoke Rossii (Instrumentation and Information Technology for Seismological Research in the Far East of Russia), Vestnik of the Far East Branch of the Russian Academy of Sciences, 2011, No. 3, pp. 127–137
  5. Khanchuk A.I., Sorokin A.A., Smagin S.I., Korolev S.P., Makogonov S.V., Tarasov A.G., Shestakov N.V., Razvitie informatsionno-telekommunikatsionnykh sistem v DVO RAN (Development of information and telecommunication systems in the Far Eastern Branch of RAS), Informatsionnye tehnologii i vychislitelnye sistemy, 2013, No. 4, pp. 45–57.
  6. Dow J.M., Neilan R.E., Rizos C., The International GNSS Service in a changing landscape of Global Navigation Satellite Systems, Journal of Geodesy, 2009, Vol. 83, Issue 3, pp. 191–198.
  7. Fowler M., Patterns of Enterprise Application Architecture, M.: Addison-Wesley Professional, 2002, 560 p.
  8. Kogan M.G., Vasilenko N.F., Frolov D.I., Freymueller J.T., Steblov G.M., Prytkov A.S., Ekstrom G., Rapid postseismic relaxation after the great 2006–2007 Kuril earthquakes from GPS observations in 2007–2011, Journal Geophysical Research: Solid Earth, 2013, Vol. 118, Issue 7, pp. 3691–3706.
  9. Korolev S.P., Sorokin A.A., Verkhoturov A.L., Konovalov A.V., Shestakov N.V., Automated information system for instrument-data processing of the regional seismic observation network of FEB RAS, Seismic Instruments, 2015, Vol. 51, No. 3, pp. 209–218.
  10. Shestakov N.V., Takahashi H., Ohzono M., Prytkov A.S., Bykov V.G., Gerasimenko M.D., Luneva M.N., Gerasimov G.N., Kolomiets A.G., Bormotov V.A., Vasilenko N.F., Baek J., Park P.-H., Serov M.A., Analysis of the far-field crustal displacements caused by the 2011 Great Tohoku earthquake inferred from continuous GPS observations, Tectonophysics, 2012, Vol. 524–525, pp. 76–86.
  11. Shestakov N.V., Ohzono M., Takahashi H., Gerasimenko M.D., Bykov V.G., Gordeev E.I., Chebrov V.N., Titkov N.N., Serovetnikov S.S., Vasilenko N.F., Prytkov A.S., Sorokin A.A., Serov M.A., Kondratyev M.N., Pupatenko V.V., Modeling of coseismic crustal movements initiated by the May 24, 2013, M w = 8.3 Okhotsk deep focus earthquake, Doklady Earth Sciences, 2014, Vol. 457, No. 2, pp. 976–981.
  12. Sorokin A.A., Korolev S.P., Urmanov I.P., Verkhoturov A.L., Makogonov S.V., Shestakov N.V., Software Platform for Observation Networks Instrumental Data Far Eastern Branch of the Russian Academy of Sciences, Proc. CSEE 2015, Beijing, May 17–18, 2015, pp. 589–594.