Title of article
New evolution equations for the joint response-excitation probability density function of stochastic solutions to first-order nonlinear PDEs
Author/Authors
Venturi، نويسنده , , D. and Karniadakis، نويسنده , , G.E.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2012
Pages
25
From page
7450
To page
7474
Abstract
By using functional integral methods we determine new evolution equations satisfied by the joint response-excitation probability density function (PDF) associated with the stochastic solution to first-order nonlinear partial differential equations (PDEs). The theory is presented for both fully nonlinear and for quasilinear scalar PDEs subject to random boundary conditions, random initial conditions or random forcing terms. Particular applications are discussed for the classical linear and nonlinear advection equations and for the advection–reaction equation. By using a Fourier–Galerkin spectral method we obtain numerical solutions of the proposed response-excitation PDF equations. These numerical solutions are compared against those obtained by using more conventional statistical approaches such as probabilistic collocation and multi-element probabilistic collocation methods. It is found that the response-excitation approach yields accurate predictions of the statistical properties of the system. In addition, it allows to directly ascertain the tails of probabilistic distributions, thus facilitating the assessment of rare events and associated risks. The computational cost of the response-excitation method is order magnitudes smaller than the one of more conventional statistical approaches if the PDE is subject to high-dimensional random boundary or initial conditions. The question of high-dimensionality for evolution equations involving multidimensional joint response-excitation PDFs is also addressed.
Keywords
Hopf characteristic functional , uncertainty quantification , Probabilistic collocation , PDF methods
Journal title
Journal of Computational Physics
Serial Year
2012
Journal title
Journal of Computational Physics
Record number
1484695
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