BEM first-order regularisation method in linear elasticity for boundary identification

a c t We investigate the stable numerical reconstruction of an unknown portion of the boundary of a twodimensional domain occupied by an isotropic linear elastic material from a prescribed boundary condition on this part of the boundary and additional displacement and traction measurements (i.e. Cau

We use the symmetric formulation of boundary integral equations to solve mixed boundary value problems based on a Galerkin discretization. This leads to a skew-symmetric and positive definite system of linear equations, which may be solved via iterative schemes, Toeplitz type preconditioners are use

Recent research has paid great attention to the exact calculation of physical values on and near the boundaries of engineering problems. In the boundary element method (BEM), this problem demands special attention because various kinds of singularity may occur when these values are calculated. Despi

A generalized Newton method is proposed in conjunction with a higher-order Lagrangian finite element discretization of bodies undergoing finite elastic deformations. The method is based on a gradient-like modification of the Newton method, designed to suppress the sensitivity of higher-order element

The boundary element method (BEM) for linear elasticity in its curent usage is based on the boundary integral equation for displacements. The stress field in the interior of the body is computed by differentiating the displacement field at the source point in the BEM formulation, via the strain fiel