SCALING RELATIONS OF OUTER FAULT PARAMETERS OF LARGE CRUSTAL EARTHQUAKES USING FAULT MODELS IN THE WORLD

SCALING RELATIONS OF OUTER FAULT PARAMETERS OF LARGE CRUSTAL EARTHQUAKES USING FAULT MODELS IN THE WORLD

We derive scaling relations of outer fault parameters of crustal earthquakes with magnitude Mw of 6.5 to 7.9 using heterogeneous slip models in the world considering fault types. The fault area, length and average slip are modeled as proportional to M0b using seismic moment M0 after the significance...

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Veröffentlicht in:Journal of Structural and Construction Engineering (Transactions of AIJ) 2021/04/30, Vol.86(782), pp.553-564
1. Verfasser: SATOH, Toshimi
Format: Artikel
Sprache:jpn
Schlagworte:
Crustal earthquake
Earthquakes
Fault model
Mathematical models
Outer fault parameter
Parameter estimation
Regression
Regression coefficients
Scaling relation
Slip
Surface rupture
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Zusammenfassung:We derive scaling relations of outer fault parameters of crustal earthquakes with magnitude Mw of 6.5 to 7.9 using heterogeneous slip models in the world considering fault types. The fault area, length and average slip are modeled as proportional to M0b using seismic moment M0 after the significance is proved by t-test if the regression coefficient b can be constrained to 1/2 or 1. The relations between subsurface fault parameters by fault models and surface fault parameters by surface rupture observations are also derived in order to estimate subsurface fault parameters from active fault survey.
ISSN:1340-4202
1881-8153
DOI:10.3130/aijs.86.553