Multi-Level Monte Carlo Finite Volume methods for uncertainty quantification of acoustic wave propagation in random heterogeneous layered medium
Open access
Datum
2014-09Typ
- Report
ETH Bibliographie
yes
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Abstract
We consider the very challenging problem of efficient uncertainty quantification for acoustic wave propagation in a highly heterogeneous, possibly layered, random medium, characterized by possibly anisotropic, piecewise log-exponentially distributed Gaussian random fields. A multi-level Monte Carlo finite volume method is proposed, along with a novel, bias-free upscaling technique that allows to represent the input random fields, generated using spectral FFT methods, efficiently. Combined together with a novel, dynamic load balancing algorithm that scales to massively parallel computing architectures, the proposed method is able to robustly compute uncertainty for highly realistic random subsurface formations that can contain a very high number (millions) of sources of uncertainty. Numerical experiments, in both two and three space dimensions, illustrating the efficiency of the method are presented. Mehr anzeigen
Persistenter Link
https://doi.org/10.3929/ethz-a-010386212Publikationsstatus
publishedZeitschrift / Serie
Research ReportBand
Verlag
ETH-ZürichThema
SCHALLAUSBREITUNG + SCHWINGUNGSAUSBREITUNG (AKUSTIK); PROPAGATION OF VIBRATIONS AND SOUND (ACOUSTICS); STOCHASTIC DIFFERENTIAL EQUATIONS (PROBABILITY THEORY); STOCHASTIC APPROXIMATION + MONTE CARLO METHODS (STOCHASTICS); STOCHASTISCHE APPROXIMATION + MONTE-CARLO-METHODEN (STOCHASTIK); STOCHASTISCHE DIFFERENTIALGLEICHUNGEN (WAHRSCHEINLICHKEITSRECHNUNG); WELLENGLEICHUNGEN (ANALYSIS); FINITE-VOLUMEN-METHODEN (NUMERISCHE MATHEMATIK); WAVE EQUATIONS (MATHEMATICAL ANALYSIS); ZUFALLSMEDIEN (WAHRSCHEINLICHKEITSRECHNUNG); FINITE VOLUME METHODS (NUMERICAL MATHEMATICS); RANDOM MEDIA (PROBABILITY THEORY)Organisationseinheit
03851 - Mishra, Siddhartha / Mishra, Siddhartha
03435 - Schwab, Christoph / Schwab, Christoph
02501 - Seminar für Angewandte Mathematik / Seminar for Applied Mathematics
Förderung
247277 - Automated Urban Parking and Driving (EC)
ETH Bibliographie
yes
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