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Article Dans Une Revue Engineering with Computers Année : 2023

Near-boundary error reduction with an optimized weighted Dirichlet–Neumann boundary condition for stochastic PDE-based Gaussian random field generators

Evan John Ricketts
Peter John Cleall
Tony Jefferson
Pierre Kerfriden
Paul Lyons
  • Fonction : Auteur

Résumé

Abstract Random field generation through the solution of stochastic partial differential equations is a computationally inexpensive method of introducing spatial variability into numerical analyses. This is particularly important in systems where material heterogeneity has influence over the response to certain stimuli. Whilst it is a convenient method, spurious values arise in the near boundary of the domain due to the non-exact nature of the specific boundary condition applied. This change in the correlation structure can amplify or dampen the system response in the near-boundary region depending on the chosen boundary condition, and can lead to inconsistencies in the overall behaviour of the system. In this study, a weighted Dirichlet–Neumann boundary condition is proposed as a way of controlling the resulting structure in the near-boundary region. The condition relies on a weighting parameter which scales the application to have a more dominant Dirichlet or Neumann component, giving a closer approximation to the true correlation structure of the Matérn autocorrelation function on which the formulation is based on. Two weighting coefficients are proposed and optimal values of the weighting parameter are provided. Through parametric investigation, the weighted Dirichlet–Neumann approach is shown to yield more consistent correlation structures than the common boundary conditions applied in the current literature. We also propose a relationship between the weighting parameter and the desired length-scale parameter of the field such that the optimal value can be chosen for a given problem.

Dates et versions

hal-04528224 , version 1 (31-03-2024)

Identifiants

Citer

Evan John Ricketts, Peter John Cleall, Tony Jefferson, Pierre Kerfriden, Paul Lyons. Near-boundary error reduction with an optimized weighted Dirichlet–Neumann boundary condition for stochastic PDE-based Gaussian random field generators. Engineering with Computers, 2023, 39 (6), pp.3821-3833. ⟨10.1007/s00366-023-01819-6⟩. ⟨hal-04528224⟩
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