Conceitos Básicos
The authors provide convergence rates for the finite volume scheme of the stochastic heat equation with multiplicative Lipschitz noise and homogeneous Neumann boundary conditions.
Resumo
The content discusses the convergence rates for the finite volume scheme of the stochastic heat equation (SHE) with multiplicative Lipschitz noise and homogeneous Neumann boundary conditions.
Key highlights:
- The authors consider the case of two and three spatial dimensions and provide error estimates for the L2-norm of the space-time discretization of the SHE and the variational solution.
- The error estimates are of order O(τ^(1/2) + h + hτ^(-1/2)), where τ represents the time step and h the spatial parameter.
- The main idea is to compare the exact solution of the SHE with the solution of the semi-implicit Euler scheme, then the solution of the semi-implicit Euler scheme with its parabolic projection, and finally the parabolic projection with the solution of the finite volume scheme.
- Regularity assumptions on the initial condition u0 (H2-regularity in space) and the function g in the stochastic Itô integral (smoothness) are needed to obtain the convergence rates.
- The stochastic nature of the problem creates worse convergence rates compared to the deterministic case.