CONTINUITY AND COLLOCATION EFFECTS IN THE BOUNDARY ELEMENT METHOD

The integrals required in the computation of in¯uence coecient matrices of the boundary element method (BEM) depend on the distance rxY x H from the collocation point or ®eld point x to the source or load point x H . As a consequence, a distinction must be made between the case where the collocation

In this paper, the basic ideas of the general boundary element method (BEM) proposed by Liao [in

Traditionally in electrical impedance tomography an approximation for the internal resistivity distribution is computed based on the knowledge of the injected currents and measured voltages on the surface of the object. However, in certain applications it is also possible to use internal current sou

As is well known, the lift of a wing passing over the ground becomes larger than that of a wing in a ®nite air ®eld because of the ground effect. Owing to its special aerodynamic characteristics and applications, the problem of the ground effect has become increasingly common. In this paper some inv

The discretization of the boundary in boundary element method generates integrals over elements that can be evaluated using numerical quadrature that approximate the integrands or semi-analytical schemes that approximate the integration path. In semi-analytical integration schemes, the integration p

The dual reciprocity boundary element method traditionally uses the linear radial basis function r for interpolation. Recently, however, the use of the r function has been questioned both in relation to accuracy and in relation to the number and position of internal nodes required to obtain satisfac