Error analysis of numerical methods on graded meshes for stochastic Volterra equations
This paper presents the error analysis of numerical methods on graded meshes for stochastic Volterra equations with weakly singular kernels. We first prove a novel regularity estimate for the exact solution via analyzing the associated convolution structure. This reveals that the exact solution exhibits an initial singularity in the sense that its Hölder continuous exponent on any neighborhood of t=0 is lower than that on every compact subset of (0,T]. Motivated by the initial singularity, we then construct the Euler–Maruyama method, fast Euler–Maruyama method, and Milstein method based on graded meshes. By establishing their pointwise-in-time error estimates, we give the grading exponents of meshes to attain the optimal uniform-in-time convergence orders, where the convergence orders improve those of the uniform mesh case. Numerical experiments are finally reported to confirm the sharpness of theoretical findings.
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