References

We apply science in our developments. Find out here where we got inspired.

[1]

LOCSAT. SeisComP locator. URL: https://docs.gempa.de/seiscomp/current/apps/global_locsat.html.

[2]

failover. gempa RecordStream plugin. URL: https://docs.gempa.de/plugins/current/base/global_failover.html.

[3]

msrtsimul. SeisComP module. URL: https://docs.gempa.de/seiscomp/current/apps/msrtsimul.html.

[4]

pipeline. SeisComP3 wiki. URL: https://www.SeisComP3.org/wiki/recipes/multiple-pick-loc-pipeline.

[5]

router. gempa RecordStream plugin. URL: https://docs.gempa.de/plugins/current/base/global_router.html.

[6]

scamp. SeisComP module. URL: https://docs.gempa.de/seiscomp/current/apps/scamp.html.

[7]

scanloc. gempa module. URL: https://docs.gempa.de/scanloc/current/index.html.

[8]

scautoloc. SeisComP module. URL: https://docs.gempa.de/seiscomp/current/apps/scautoloc.html.

[9]

scconfig. SeisComP module. URL: https://docs.gempa.de/seiscomp/current/apps/scconfig.html.

[10]

scevent. SeisComP module. URL: https://docs.gempa.de/seiscomp/current/apps/scevent.html.

[11]

scmag. SeisComP module. URL: https://docs.gempa.de/seiscomp/current/apps/scmag.html.

[12]

scolv. SeisComP module. URL: https://docs.gempa.de/seiscomp/current/apps/scolv.html.

[13]

seedlink. Real-time waveform server. URL: https://docs.gempa.de/seiscomp/current/apps/seedlink.html.

[14]

SEED Reference Manual. USGS, 2012. URL: http://www.fdsn.org/pdf/SEEDManual_V2.4.pdf.

[15]

P. Bormann and J. Saul. A Fast, Non-saturating Magnitude Estimator for Great Earthquakes. Seismol. Res. Lett., 80(5):808 – 816, 2009. doi:10.1785/gssrl.80.5.808.

[16]

P. Bormann and K. Wylegalla. Quick estimator of the size of great earthquakes. EOS, 86(46):464, 2005.

[17]

D.J. Brown, C.N. Katz, R. Le BRAS, M.P. Flanagan, J. Wang, and A.K. Gault. Infrasonic Signal Detection and Source Location at the Prototype International Data Centre. Pure appl. geophys., 159:1081 – 1125, 2002. URL:, doi:10.1007/s00024-002-8674-2.

[18]

Y. Cansi. An automatic seismic event processing for detection and location: The PMCC method. Geophys. Res. Lett., 9:1021 – 1024, 1995. URL:, doi:10.1029/95GL00468.

[19]

B. Gutenberg and C.F. Richter. Magnitude and Energy of Earthquakes. Annals of Geophysics, 9(1):1 – 15, 1956. URL: https://resolver.caltech.edu/CaltechAUTHORS:20140130-105324849, doi:10.4401/ag-5590.

[20]

A. Katsumata. Comparison of Magnitudes Estimated by the Japan Meteorological Agency with Moment Magnitudes for Intermediate and Deep Earthquakes. Bull. Seism. Soc., 86(3):832 – 842, 1996.

[21]

C.F. Richter. An instrumental earthquake magnitude scale. Bull. Seismol. Soc. Am., 1:1 – 32, 1935. URL: https://resolver.caltech.edu/CaltechAUTHORS:20140804-143558638, doi:10.1785/BSSA0250010001.

[22]

D. Roessler, F. Krueger, M. Ohrnberger, and L. Ehlert. Rapid characterisation of large earthquakes by multiple seismic broadband arrays. NHESS, 4:923 – 932, 2010. doi:10.5194/nhess-10-923-2010.

[23]

S. Rost and C. Thomas. Array seismology: methods and applications. Rev. Geophys., 3:2 – 1, 2002. doi:10.1029/2000RG000100.

[24]

J. Schweitzer, J. Fyen, S. Mykkeltveit, S. Gibbons, M. Pirli, D. Kühn, and T. Kvaerna. New Manual of Seismological Observatory Practice 2 (NMSOP-2). Deutsches GeoForschungsZentrum GFZ, pages 1 – 80, 2012. doi:10.2312/GFZ.NMSOP-2_ch9.

[25]

S. Tsuboi, K. Abe, K. Takano, and Y. Yamanaka. Rapid determination of Mw from broadband P waveforms. Bull. Seismol. Soc. Am., 1995. doi:10.1785/BSSA0850020606.

[26]

R.A. Uhrhammer and E.R. Collins. Synthesis of Wood-Anderson seismograms from broadband digital records. Bull. Seismol. Soc. Am., 80(3):702–716, 1990. doi:10.1785/BSSA0800030702.

[27]

P.M. Whitmore, S. Tsuboi, B. Hirshorn, and T.J. Sokolowski. Magnitude dependent correction for Mwp. Science of Tsunami Hazards, 20(4):, 2002.