Using a matched-filter technique at the Mikhnevo small-aperture seismic array

The Mikhnevo small-aperture array (SAA) was designed as an instrument for various regional seismic studies, including the compilation of a detailed catalogue of industrial blasts in the East European craton. This array includes 12 observation points arranged in three circles and equipped with SM3-KV shortperiod seismometers. The Institute of Geospheres Dynamics launched the array in 2004, and since that time it has been detecting up to 1000 industrial blasts per year. The Mikhnevo SAA uses beam formation for array processing. The stacking of individual waveforms reduced to a reference point allows the suppression of microseismic noise and improving the signal-to-noise ratio (SNR) relative to a three-component station. An improved SNR for a given signal is equivalent to a reduced detection threshold: much weaker signals can be detected with the use of a beam-formation technique. In turn, much more signals from small industrial explosions are detected. Weak signals are difficult to identify because of the higher uncertainty in the estimates of such characteristics as azimuth, slowness, and amplitude. Having a ten-year catalog of industrial blasts and the archive of raw digital records for this period, we apply a waveform cross-correlation (matched filter) technique, which has an extremely high relative location accuracy and thus identification capability. We have created a set of master events with relevant waveform templates for automatic data processing and creation of an accurate catalogue of industrial blasts.

[1]  S. Wiemer,et al.  Assessing the Quality of Earthquake Catalogues: Estimating the Magnitude of Completeness and Its Uncertainty , 2005 .

[2]  R. Geller,et al.  Four similar earthquakes in central California , 1980 .

[3]  P. Richards,et al.  Repeating Seismic Events in China , 2004, Science.

[4]  F. Ringdal,et al.  The detection of low magnitude seismic events using array-based waveform correlation , 2006 .

[5]  A. Fedorov,et al.  The improved algorithm of automatic detection and location of earthquakes by a single seismic array and its application for study of aftershock sequence in the spitsbergen archipelago , 2011 .

[6]  Steven J. Gibbons,et al.  The detection and location of low magnitude earthquakes in northern Norway using multi-channel waveform correlation at regional distances , 2007 .

[7]  Modern geodynamically active zones in the Central East European Craton , 2013, Doklady Earth Sciences.

[8]  F. Waldhauser,et al.  Optimizing Correlation Techniques for Improved Earthquake Location , 2004 .

[9]  Manfred Joswig Pattern Recognition for Earthquake Detection , 1987, ASST.

[10]  S. Volosov,et al.  Synchronization system of stations records for Mikhnevo small aperture array , 2013, Seismic Instruments.

[11]  Hans Israelsson,et al.  Correlation of waveforms from closely spaced regional events , 1990, Bulletin of the Seismological Society of America.

[12]  Lassina Zerbo,et al.  Perspectives of cross correlation in seismic monitoring at the International Data Centre , 2011 .

[13]  Won-Young Kim,et al.  The Applicability of Modern Methods of Earthquake Location , 2006 .

[14]  O. A. Chernykh,et al.  The MIKHNEVO small aperture array enhances the resolution property of seismological observations on the East European Platform , 2011 .