Electric signals have been recently recorded at the Earth's surface with amplitudes appreciably larger than those hitherto reported. Their entropy in natural time is smaller than that, $S_u$, of a ``uniform'' distribution. The same holds for their entropy upon time-reversal. This behavior, as supported by numerical simulations in fBm time series and in an on-off intermittency model, stems from infinitely ranged long range temporal correlations and hence these signals are probably Seismic Electric Signals (critical dynamics). The entropy fluctuations are found to increase upon approaching bursting, which reminds the behavior identifying sudden cardiac death individuals when analysing their electrocardiograms
By analyzing the seismicity in a new time domain, termed natural time, we recently found that the ch...
The authors wish to acknowledge IAGPDS and IGN for the availability of the seismic dataset. We are e...
A cumulative frequency-magnitude relation, the Gutenberg-Richter law, dominates the statistics of th...
Natural time is a new time domain introduced in 2001. The analysis of time series associated with a ...
A lot of work in geosciences has been completed during the last decade on the analysis in the new co...
Seismic electric signals (SES) have been considered precursors of strong earthquakes, and, recently,...
Here, we analyze in natural time all earthquakes of magnitude (M) 3.5 or larger in Japan from 1 Janu...
The observed earthquake scaling laws indicate the existence of phenomena closely associated with the...
Abstract. In this work we use the multiscale entropy method to analyse the variability of geo-electr...
Abstract: The behavior of seismicity in the area candidate to suffer a main shock is investigated af...
We analyse seismicity during the 6-year period 2012–2017 in the new time domain termed natural...
In this paper, we propose a new entropy calculation method to observe the temporal change of the ent...
There is a recent thesis in the literature that an important organization of a physical system prece...
By analyzing the seismicity in a new time domain, termed natural time, we recently found that the ch...
Abstract. The detection of events in seismic time series has been a subject of great interest during...
By analyzing the seismicity in a new time domain, termed natural time, we recently found that the ch...
The authors wish to acknowledge IAGPDS and IGN for the availability of the seismic dataset. We are e...
A cumulative frequency-magnitude relation, the Gutenberg-Richter law, dominates the statistics of th...
Natural time is a new time domain introduced in 2001. The analysis of time series associated with a ...
A lot of work in geosciences has been completed during the last decade on the analysis in the new co...
Seismic electric signals (SES) have been considered precursors of strong earthquakes, and, recently,...
Here, we analyze in natural time all earthquakes of magnitude (M) 3.5 or larger in Japan from 1 Janu...
The observed earthquake scaling laws indicate the existence of phenomena closely associated with the...
Abstract. In this work we use the multiscale entropy method to analyse the variability of geo-electr...
Abstract: The behavior of seismicity in the area candidate to suffer a main shock is investigated af...
We analyse seismicity during the 6-year period 2012–2017 in the new time domain termed natural...
In this paper, we propose a new entropy calculation method to observe the temporal change of the ent...
There is a recent thesis in the literature that an important organization of a physical system prece...
By analyzing the seismicity in a new time domain, termed natural time, we recently found that the ch...
Abstract. The detection of events in seismic time series has been a subject of great interest during...
By analyzing the seismicity in a new time domain, termed natural time, we recently found that the ch...
The authors wish to acknowledge IAGPDS and IGN for the availability of the seismic dataset. We are e...
A cumulative frequency-magnitude relation, the Gutenberg-Richter law, dominates the statistics of th...