A stochastic modelling of earthquake frequencies |
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Authors: | Tom Ouchi |
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Institution: | Department of Earth Sciences, Faculty of Science, Kobe University, Nada Kobe, Japan |
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Abstract: | Summary. The frequency of earthquake occurrence in a given region can be formulated as where n ( t ) is the number of earthquakes per unit time, and r, k and α are constants. Empirically determined values of α range from 0.67 to 1.0. This is a generalization of the modified Omori formula for aftershocks, the latter being an approximation of the former for n > k. This formula adequately describes the initial increasing and later decreasing activity of earthquakes during the Matsushiro and Wakayama swarms as well as aftershocks of large earthquakes. When a random external force is added to this system as a driving mechanism, the equation above becomes where v = l n ( n/k ) and R ( t ) is the random Gaussian noise. Repetitive seismic patterns with bursts, which are commonly observed in real earthquake sequences, are predicted from this formulation under stationary conditions. These formulations appear to be quite promising in helping to understand macroscopic features of the microearthquake activity. |
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