OMIV - Time serie of seismic waveforms recorded on landslides and catalogue of endogenous seismic events (2012)

vignette
Data collector : Benjamin Vial [1], Maurin Vidal [2], Romain Besso [2], Sandrine Baudin [3]
[1] : Observatoire des Sciences de l’Univers de Grenoble (UAR 832)
[2] : Observatoire de la Côte d'Azur (UMS 2202)
[3] : Observatoire de REcherche Montpelliérain de l'Environnement (UAR 3282)
[4] : Ecole et Observatoire des Sciences de la Terre (UMS 830)
Description :
Seismic waveforms continuous records acquired on OMIV landslides at 250 Hz in miniseed standardized file format. Instrumental catalogue of endogenous seismic events.
Disciplines :
geochemistry & geophysics (sciences of the universe), geology (sciences of the universe), geosciences, multidisciplinary (sciences of the universe)

General metadata

Data acquisition date : from 21 Sep 2006 ongoing
Data acquisition methods :
  • Observational data :
    Seismic waveforms measured by high-frequency seismometers in order to document the movement amplitude of the ground and to propose instrumental catalogues of landslide-triggered micro-seismicity (e.g. endogenous signal of gravitational origin). Every site is equipped with at least two seismic arrays with 6 to 9 sensors. Data are either stored in the datalogger or transmitted (data flows) to the Data Center. Raw data are converted into a standard format (i.e. miniseed format) and disseminated by the RESIF infrastructure. Instrumental catalogues of endogenous seismicity are created using machine learning methods applied on the waveforms. The database has the DOI 10.15778/RESIF.MT
Update periodicity : daily
Language : English (eng)
Formats : application/vnd.fdsn.seed
Audience : University: licence, University: master, Research, Policy maker

Coverages

Spatial coverage :

50 entries

Time coverage :

50 entries
Publications :
  • Provost F., Malet J.-P., Gance J., Helmstetter A. and Doubre C. 2018. Automatic approach for increasing the location accuracy of slow-moving landslide endogenous seismicity: the APOLoc method. Geophysical Journal International, 215:1455–1473. (doi:10.1093/gji/ggy330)
  • Lacroix P. and Helmstetter A. 2011. Location of seismic signals associated with microearthquakes and rockfalls on the Séchilienne landslide, French Alps. Bulletin of the Seismological Society of America, 101(1):341-353. (doi:10.1785/0120100110)
  • Helmstetter A. and Garambois S. 2010. Seismic monitoring of Séchilienne Rockslide (French Alps): analysis of seismic signals and their correlation with rainfalls. Journal of Geophysical Research, 115:1-15. (doi:10.1029/2009JF001532)
Collection :
Record created 3 Dec 2018 by Juliette Fabre.
Last modification : 26 Nov 2019.
Local identifier: FR-18008901306731-2018-12-03-02.

dat@UBFC

dat@UBFC is a metadata catalogue for research data produced at UBFC.

Terms of use
Université de Bourgogne, Université de Franche-Comté, UTBM, AgroSup Dijon, ENSMM, BSB, Arts des Metiers