On Error-Based Step Size Control for Discontinuous Galerkin Methods for Compressible Fluid Dynamics

A posteriori error estimates based on residuals can be used for reliable error control of numerical methods. Here, we consider them in the context of ordinary differential equations and Runge-Kutta methods. In particular, we take the approach of Dedner & Giesselmann (2016) and investigate it when used to select the time step size. We focus on step size control stability when combined with explicit Runge-Kutta methods and demonstrate that a standard I controller is unstable while more advanced PI and PID controllers can be designed to be stable. We compare the stability properties of residual-based estimators and classical error estimators based on an embedded Runge-Kutta method both analytically and in numerical experiments.

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p-adaptive discontinuous Galerkin solution of transonic viscous flows with variable time step-size

Colombo,

Crivellini,

Ghidoni

et al. 2024

Computers & Fluids

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On Error-Based Step Size Control for Discontinuous Galerkin Methods for Compressible Fluid Dynamics

Cited by 5 publications

References 89 publications

Very High-Order A-Stable Stiffly Accurate Diagonally Implicit Runge-Kutta Methods with Error Estimators

Very High-Order A-Stable Stiffly Accurate Diagonally Implicit Runge-Kutta Methods with Error Estimators

Stability of step size control based on a posteriori error estimates

p-adaptive discontinuous Galerkin solution of transonic viscous flows with variable time step-size

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