Advertisement

Early-Warning Landslide Monitoring System

  • Alexander Ginzburg
  • Valentina Svalova
  • Alexey Nikolaev
  • Anatoliy Manukin
  • Vladimir Savosin
Chapter
Part of the Innovation and Discovery in Russian Science and Engineering book series (IDRSE)

Abstract

Analysis of seismological phone changes will give possibility to elaborate early-warning system. Sergeev Institute of Environmental Geoscience RAS (IEG RAS) has developed and delivered the “System monitoring acceleration induced on the upper part of the offshore oil and gas platforms” for deposits Lunskoye-A (LUN-A) and Piltun-Astokhskoye-B (PA-B) for Sakhalin-2 project. The system is intended to ensure the safety of the operation of these facilities.

Experience of the system creation was used for real-time early-warning landslide monitoring system construction. This system was successfully used for landslides monitoring of coastal slope of the river Yenisei.

References

  1. 1.
    Ginzburg, A. A., Manukin, A. B., Mironov, O. K., & Novikova, A. V. (2009). The spatial and spectral characteristics caused by earthquakes and other effects of fluctuations in offshore oil and gas platforms. Geoecology, N5, 80–89.Google Scholar
  2. 2.
    Ginzburg, A. A., Itzko, A. S., Kondratenko, A. I., Manukin, A. B., Mironov, O. K., & Novikova, A. V. (2008). Simulation of different impacts on offshore oil and gas platforms for the detection of dangerous earthquakes systems. Questions Engineering Seismology, N2, 35, 5–13.Google Scholar
  3. 3.
    Nikolaev, A. V., Bashilov, I. P., Shou, K.-J., Svalova, V. B. Manukin, A. B., Zubko, Y. N., Behterev, S. V., Kazantseva, O. S., & Rebrov, V. I. (2011). Some directions of works on maintenance of geological safety of engineering constructions. In Proceedings of ENGEOPRO, Moscow, p. 7.Google Scholar
  4. 4.
    Postoev, G. P., & Svalova, V. B. (2005). Landslides risk reduction and monitoring for urban territories in Russia. In Proceedings of the first general assembly of ICL (International Consortium on Landslides), “Landslides: risk analysis and sustainable disaster management” (pp 297–303), Washington, DC: Springer.Google Scholar
  5. 5.
    Svalova, V. B. (2009). Mechanical-mathematical modeling for sedimentary movement and landslide processes. In CD proceedings of the international association for mathematical geosciences meeting (IAMG 2009), Stanford, p. 15.Google Scholar
  6. 6.
    Svalova, V. B. (2011). Mechanical-mathematical modeling and monitoring for landslide processes. Journal of Environmental Science and Engineering, 5(10), 1282–1287.Google Scholar
  7. 7.
    Svalova, V. (2011). Monitoring and modeling of landslide processes. Monitoring Science and Technology, 2(7), 19–27 (in Russian).Google Scholar
  8. 8.
    Svalova, V. B. (2011). Landslide process simulation and monitoring. In Proceedings of ENGEOPRO, Moscow, p. 7.Google Scholar
  9. 9.
    Svalova, V. B. (2012). Mechanical-mathematical modeling and monitoring for landslides. In Proceedings of IPL (International Program on Landslides) symposium (pp. 63–68). Paris: UNESCO.Google Scholar
  10. 10.
    Svalova, V. B. (2013). Risk reduction for landslide hazards. Modeling and monitoring. In Proceedings of The International Conference Natural risks: analysis, estimation, mapping (pp. 157–163), Moscow: MSU. (In Russian).Google Scholar
  11. 11.
    Svalova, V. B. (2014). Modeling and monitoring for landslide processes. In K. Linwood (Ed.), Chapter in book: Natural disasters – typhoons and landslides – risk prediction, crisis management and environmental impacts (pp. 177–198). New York: Nova Science Publishers.Google Scholar
  12. 12.
    Svalova, V. B. (2014). Mechanical-mathematical modeling and monitoring for landslide processes. In IPL 163 Project. Proceedings of the world landslide forum 3 (Vol. 4, pp. 24–27). Beijing.Google Scholar
  13. 13.
    Svalova, V. B. (2014). Modeling and monitoring for landslide processes: Case study of Moscow and Taiwan. In Proceedings of the world landslide forum 3 (Vol. 4, pp. 628–632). Beijing.Google Scholar
  14. 14.
    Svalova, V. B. (2015). Mechanical modeling and geophysical monitoring for landslide processes. In Proceedings of IAEG XII congress “Engineering geology for society and territory” Torino-2014 (Vol. 2, pp. 345–348), Italy: Springer.Google Scholar
  15. 15.
    Svalova, V. (2017). Landslide risk: Assessment, management and reduction (p. 253). New York: Nova Science Publishers.Google Scholar
  16. 16.
    Svalova, V., & Postoev, G. (2008). Landslide process activization on sites of cultural heritage in Moscow, Russia. In Proceedings of the first world landslide forum 2008, Tokyo, p. 4.Google Scholar

Copyright information

© Springer International Publishing AG, part of Springer Nature 2019

Authors and Affiliations

  • Alexander Ginzburg
    • 1
  • Valentina Svalova
    • 1
  • Alexey Nikolaev
    • 1
  • Anatoliy Manukin
    • 1
  • Vladimir Savosin
    • 1
  1. 1.Sergeev Institute of Environmental Geoscience RAS (IEG RAS)MoscowRussia

Personalised recommendations