Unified analysis on Petrov-Galerkin method into Symm's integral of the first kind

Abstract

On bounded and simply connected planar analytic domain , by 2π periodic parametric representation of boundary curve ∂ , Symm's integral equation of the first kind takes form K = g , where K is seen as an operator mapping from L2(0,2π) to itself. The classical result show complete convergence and error analysis in L2 setting for least squares, dual least squares, Bubnov-Galerkin methods with Fourier basis when g ∈ Hr(0,2π), \ r ≥ 1 . In this paper, weakening the boundary ∂ from analytic to C3 class, we maintain the convergence and error analysis from analytic case. Besides, it is proven that, when g ∈ Hr(0,2π), \ 0 ≤ r < 1 , the least squares, dual least squares, Bubnov-Galerkin methods with Fourier basis will uniformly diverge to infinity at first order. The divergence effect and optimality of first order rate are confirmed in an example.