On stability and monotonicity requirements of finite difference approximations of stochastic conservation laws with random viscosity
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AbstractThe stochastic Galerkin and collocation methods are used to solve an advection-diffusion equation with uncertain and spatially varying viscosity. We investigate well-posedness, monotonicity and stability for the extended system resulting from the Galerkin projection of the advection-diffusion equation onto the stochastic basis functions. High-order summation-by-parts operators and weak imposition of boundary conditions are used to prove stability of the semi-discrete system.It is essential that the eigenvalues of the resulting viscosity matrix of the stochastic Galerkin system are positive and we investigate conditions for this to hold. When the viscosity matrix is diagonalizable, stochastic Galerkin and stochastic collocation are similar in terms of computational cost, and for some cases the accuracy is higher for stochastic Galerkin provided that monotonicity requirements are met. We also investigate the total spatial operator of the semi-discretized system and its impact on the convergence to steady-state. © 2013 Elsevier B.V.
CitationPettersson P, Doostan A, Nordström J (2013) On stability and monotonicity requirements of finite difference approximations of stochastic conservation laws with random viscosity. Computer Methods in Applied Mechanics and Engineering 258: 134–151. Available: http://dx.doi.org/10.1016/j.cma.2013.02.009.
SponsorsThe first author gratefully acknowledges funding from King Abdullah University of Science and Technology (KAUST), Saudi Arabia. The second author gratefully acknowledges the support of the Department of Energy under grant DE-SC0006402.