Connections between the filtered discontinuous Galerkin method and the flux reconstruction approach to high order discretizations

The purpose of this paper is to provide new insights on the connections that exist between the discontinuous Galerkin method (DG), the flux reconstruction method (FR) and the recently identified energy stable flux reconstruction method (ESFR) when solving time dependent conservation laws. All these schemes appear to be quite similar and it is important to understand how they are related. In this paper, we first review results on the stability of the discontinuous Galerkin method and extend it to the filtered discontinuous Galerkin method. We then consider the flux reconstruction approach and show its connections with DG. In particular, we show how the Energy Stable Flux Reconstruction method introduced by Vincent et al. is equivalent to a filtered DG method, hence giving a new proof of its stability. Also, it allows the use of the method without having to know the special form of the flux correction polynomials. Finally, we underline some fundamental differences that exist between FR and DG.

► Residual filtered discontinuous Galerkin and flux reconstruction methods compared. ► Energy Stable Flux Reconstruction (ESFR) subset of both methods. ► ESFR filters the highest mode of the DG residual. ► Flux reconstruction not a subset of filtered DG method. ► DG method not a subset of flux reconstruction method.