Fardin Saedpanah scite author profile

Abstract. Semidiscrete finite element approximation of the linear stochastic wave equation with additive noise is studied in a semigroup framework. Optimal error estimates for the deterministic problem are obtained under minimal regularity assumptions. These are used to prove strong convergence estimates for the stochastic problem. The theory presented here applies to multi-dimensional domains and spatially correlated noise. Numerical examples illustrate the theory.

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The continuous Galerkin method for an integro-differential equation modeling dynamic fractional order viscoelasticity

Larsson

Saedpanah

2009

IMA Journal of Numerical Analysis

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Well-posedness of an integro-differential equation with positive type kernels modeling fractional order viscoelasticity

Saedpanah

2014

European Journal of Mechanics - A/Solids

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A hyperbolic type integro-differential equation with two weakly singular kernels is considered together with mixed homogeneous Dirichlet and non-homogeneous Neumann boundary conditions. Existence and uniqueness of the solution is proved by means of Galerkin's method. Regularity estimates are proved and the limitations of the regularity are discussed. The approach presented here is also used to prove regularity of any order for models with smooth kernels, that arise in the theory of linear viscoelasticity, under the appropriate assumptions on data.Date: October 24, 2013. 1991 Mathematics Subject Classification. 45K05.

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Discontinuous Galerkin method for an integro-differential equation modeling dynamic fractional order viscoelasticity

Larsson

Racheva

Saedpanah

2015

Computer Methods in Applied Mechanics and Engineering

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An integro-differential equation, modeling dynamic fractional order viscoelasticity, with a Mittag-Leffler type convolution kernel is considered. A discontinuous Galerkin method, based on piecewise constant polynomials is formulated for temporal semidiscretization of the problem. Stability estimates of the discrete problem are proved, that are used to prove optimal order a priori error estimates. The theory is illustrated by a numerical example.

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