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Journal Article

Citation

Salmanidou DM, Guillas S, Georgiopoulou A, Dias F. Proc. Math. Phys. Eng. Sci. 2017; 473(2200): e20170026.

Affiliation

Earth Institute, University College Dublin, Dublin, Ireland.

Copyright

(Copyright © 2017, The Royal Society)

DOI

10.1098/rspa.2017.0026

PMID

28484339

PMCID

PMC5415699

Abstract

Statistical methods constitute a useful approach to understand and quantify the uncertainty that governs complex tsunami mechanisms. Numerical experiments may often have a high computational cost. This forms a limiting factor for performing uncertainty and sensitivity analyses, where numerous simulations are required. Statistical emulators, as surrogates of these simulators, can provide predictions of the physical process in a much faster and computationally inexpensive way. They can form a prominent solution to explore thousands of scenarios that would be otherwise numerically expensive and difficult to achieve. In this work, we build a statistical emulator of the deterministic codes used to simulate submarine sliding and tsunami generation at the Rockall Bank, NE Atlantic Ocean, in two stages. First we calibrate, against observations of the landslide deposits, the parameters used in the landslide simulations. This calibration is performed under a Bayesian framework using Gaussian Process (GP) emulators to approximate the landslide model, and the discrepancy function between model and observations. Distributions of the calibrated input parameters are obtained as a result of the calibration. In a second step, a GP emulator is built to mimic the coupled landslide-tsunami numerical process. The emulator propagates the uncertainties in the distributions of the calibrated input parameters inferred from the first step to the outputs. As a result, a quantification of the uncertainty of the maximum free surface elevation at specified locations is obtained.


Language: en

Keywords

Bayesian calibration; landslide tsunamis; statistical emulators

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