This work describes the automatic picking of the P-phase arrivals of the 3*106 seismic registers originated during the TOMO-ETNA experiment. Air-gun shots produced by the vessel "Sarmiento de Gamboa" and contemporary passive seismicity occurring in the island are recorded by a dense network of stations deployed for the experiment. In such scenario, automatic processing is needed given: (i) the enormous amount of data, (ii) the low Signal-to-Noise ratio of many of the available registers and, (iii) the accuracy needed for the velocity tomography resulting from the experiment. A preliminary processing is performed with the records obtained from all stations. Raw data formats from the different types of stations are unified, eliminating defect...
A preliminary study is performed to test the ability of an artificial neural network (ANN) to detect...
In this work, new strategies for automatic identification of P- and S-wave arrival times from digita...
Many seismology applications such as earthquake hypocenter determination, source mechanism analysis...
This work describes the automatic picking of the P-phase arrivals of the 3*10^6 seismic registers or...
This work describes the automatic picking of the P-phase arrivals of the 3*106 seismic registers ori...
In this paper, we propose a novel picking algorithm for the automatic P- and S- waves onset time det...
We develop a set of algorithms for automatic detection and picking of direct P and S waves, as well ...
Abstract High-resolution seismic tomography at local and regional scales requires large and consiste...
In this work, we test a fully automatic procedure to obtain local earthquake tomography (LET), start...
Onset detection of P-wave in seismic signals is of vital importance to seismologists because it is n...
Detecting P-wave onsets for online processing is an important component for real-time seismology. As...
The new approach to the P-wave arrival time determination based on acoustic emission data from loadi...
Abstract Automatic-time picking continues to be a significant issue in seismo-gram analysis. Any ind...
Accuracy of seismic phase observation and consistency of timing error assessment define the quality ...
Accuracy of seismic phase observation and consistency of timing error assessment define the quality ...
A preliminary study is performed to test the ability of an artificial neural network (ANN) to detect...
In this work, new strategies for automatic identification of P- and S-wave arrival times from digita...
Many seismology applications such as earthquake hypocenter determination, source mechanism analysis...
This work describes the automatic picking of the P-phase arrivals of the 3*10^6 seismic registers or...
This work describes the automatic picking of the P-phase arrivals of the 3*106 seismic registers ori...
In this paper, we propose a novel picking algorithm for the automatic P- and S- waves onset time det...
We develop a set of algorithms for automatic detection and picking of direct P and S waves, as well ...
Abstract High-resolution seismic tomography at local and regional scales requires large and consiste...
In this work, we test a fully automatic procedure to obtain local earthquake tomography (LET), start...
Onset detection of P-wave in seismic signals is of vital importance to seismologists because it is n...
Detecting P-wave onsets for online processing is an important component for real-time seismology. As...
The new approach to the P-wave arrival time determination based on acoustic emission data from loadi...
Abstract Automatic-time picking continues to be a significant issue in seismo-gram analysis. Any ind...
Accuracy of seismic phase observation and consistency of timing error assessment define the quality ...
Accuracy of seismic phase observation and consistency of timing error assessment define the quality ...
A preliminary study is performed to test the ability of an artificial neural network (ANN) to detect...
In this work, new strategies for automatic identification of P- and S-wave arrival times from digita...
Many seismology applications such as earthquake hypocenter determination, source mechanism analysis...