A Note on the Reliability of Goal-Oriented Error Estimates for Galerkin Finite Element Methods with Nonlinear Functionals

Abstract

We consider estimating the discretization error in a nonlinear functional J(u) in the setting of an abstract variational problem: find u ∈ V such that B(u,) = L() \; ∀ ∈ V, as approximated by a Galerkin finite element method. Here, V is a Hilbert space, B(·,·) is a bilinear form, and L(·) is a linear functional. We consider well-known error estimates η of the form J(u) - J(uh) ≈ η = L(z) - B(uh, z), where uh denotes a finite element approximation to u, and z denotes the solution to an auxiliary adjoint variational problem. We show that there exist nonlinear functionals for which error estimates of this form are not reliable, even in the presence of an exact adjoint solution solution z. An estimate η is said to be reliable if there exists a constant C ∈ R>0 independent of uh such that |J(u) - J(uh)| ≤ C|η|. We present several example pairs of bilinear forms and nonlinear functionals where reliability of η is not achieved.