Bayesian inference and Markov chain Monte Carlo based estimation of a geoscience model parameter
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The critical slip distance in rate and state model for fault friction in the study of potential earthquakes can vary wildly from micrometers to few meters depending on the length scale of the critically stressed fault. This makes it incredibly important to construct an inversion framework that provides good estimates of the critical slip distance purely based on the observed acceleration at the seismogram. The framework is based on Bayesian inference and Markov chain Monte Carlo. The synthetic data is generated by adding noise to the acceleration output of spring-slider-damper idealization of the rate and state model as the forward model.
2021 ◽
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2020 ◽
Vol 8
(3)
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pp. 59-63
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Bayesian inference along Markov Chain Monte Carlo approach for PWR core loading pattern optimization
2012 ◽
Vol 50
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pp. 150-157
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2019 ◽
Vol 15
(11)
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pp. 1548-1565
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2020 ◽
Vol 12
(6)
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pp. 771-785
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2006 ◽
Vol 16
(4)
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pp. 2215-2234
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