Journal ArticleDOI
An automatic phase picker for local and teleseismic events
Manfred Baer,Urs Kradolfer +1 more
TLDR
In this article, an automatic detection algorithm has been developed which is capable of time P -phase arrivals of both local and teleseismic earthquakes, but rejects noise bursts and transient events.Abstract:
An automatic detection algorithm has been developed which is capable of time P -phase arrivals of both local and teleseismic earthquakes, but rejects noise bursts and transient events. For each signal trace, the envelope function is calculated and passed through a nonlinear amplifier. The resulting signal is then subjected to a statistical analysis to yield arrival time, first motion, and a measure of reliability to be placed on the P -arrival pick. An incorporated dynamic threshold lets the algorithm become very sensitive; thus, even weak signals are timed precisely. During an extended performance evaluation on a data set comprising 789 P phases of local events and 1857 P phases of teleseismic events picked by an analyst, the automatic picker selected 66 per cent of the local phases and 90 per cent of the teleseismic phases. The accuracy of the automatic picks was “ideal” (i.e., could not be improved by the analyst) for 60 per cent of the local events and 63 per cent of the teleseismic events.read more
Citations
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Journal ArticleDOI
PhaseNet: a deep-neural-network-based seismic arrival-time picking method
Weiqiang Zhu,Gregory C. Beroza +1 more
TL;DR: A deep-neural-network-based arrival-time picking method called "PhaseNet" that picks the arrival times of both P and S waves, and has the potential to increase the number of S-wave observations dramatically over what is currently available.
Journal ArticleDOI
Geotomography with local earthquake data
TL;DR: In this article, the Aki-Christoffersson-Husebye method (ACH) is used for the inversion of large matrices, a task that is often performed by approximative solutions when the matrices become too big, considering the coupled inverse problem.
Journal ArticleDOI
Robust automatic P-phase picking: an on-line implementation in the analysis of broadband seismogram recordings
Reinoud Sleeman,Torild van Eck +1 more
TL;DR: The AR-AIC picker has been tested successfully and implemented on the Z-component of the broadband station HGN to provide automatic P-phase picks for a rapid warning system and is shown to provide accurate and robust automatic picks on a large experimental database.
Journal ArticleDOI
Characterization of global seismograms using an automatic-picking algorithm
Paul S. Earle,Peter M. Shearer +1 more
TL;DR: In this article, an automatic phase picker is used for quickly identifying and timing phase arrivals in large seismic data bases using a short-term average to longterm average ratio (STA/LTA) taken along an envelope function generated from the seismogram.
Journal ArticleDOI
Strategies for reliable automatic onset time picking of acoustic emissions and of ultrasound signals in concrete.
TL;DR: The AIC-picker is compared to an automatic onset detection algorithm based on the Hinkley criterion and also adapted to acoustic emissions and produces sufficient reliable results for ultrasound signals where the deviation from the manual picks varies between 2% and 4%.
References
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Journal ArticleDOI
Automatic earthquake recognition and timing from single traces
TL;DR: In this article, a computer program was developed for the automatic detection and timing of earthquakes on a single seismic trace, which operates on line and is sufficiently simple that it is expected to work in inexpensive low-power microprocessors in field applications.
Journal ArticleDOI
Automatic phase pickers: Their present use and future prospects
TL;DR: Automatic phase-picking algorithms are designed to detect a seismic signal on a single trace and to time the arrival of the signal precisely as mentioned in this paper, but they are inherently less sensitive than one designed only to detect the presence of a signal, but still can approach the performance of a skilled analyst.
Journal ArticleDOI
A deep low-velocity body under the Yellowstone caldera, Wyoming: Delineation using teleseismic P-wave residuals and tectonic interpretation
TL;DR: Iyer et al. as mentioned in this paper presented a detailed analysis of P-residual data from the 26-element telemetered seismic array and three groups of portable stations operated by the U.S. Geological Survey in the Yellowstone region.
Journal ArticleDOI
ASP: an automated seismic processor for microearthquake networks
TL;DR: ASP as discussed by the authors is a low-power, in-field automated Seismic Processor of microearthquake network data has been designed, fabricated, and deployed for initial operation in four different field areas to monitor seismicity associated with two geothermal areas (The Geysers, California, and Cerro Prieto, Mexico), a nuclear explosion with its related collapse and aftershock sequence, and late (>1 year) activity in a major aftershock series (Livermore, California).
Journal ArticleDOI
Real-time detection and location of local seismic events in central California
TL;DR: A computer-based system dedicated full time to automatic detection and location of local seismic events in central California has been developed as discussed by the authors, which monitors 108 short-period vertical-component stations from the U.S. Geological Survey central California and Oroville seismic networks.
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Robust automatic P-phase picking: an on-line implementation in the analysis of broadband seismogram recordings
Reinoud Sleeman,Torild van Eck +1 more