A dynamic algorithm for integration in the boundary element method

In this letter, a hybrid algorithm combining the direct method with the iterati¨e method is designed for sol¨ing the FE᎐BI matrix equation, which not only can take full ad¨antage of the multile¨el ( ) fast multipole algorithm MLFMA , but also can significantly speed up the rate of con¨ergence. Numer

In this paper a new technique is presented for transferring the domain integrals in the boundary integral equation method into equivalent boundary integrals. The technique has certain similarities to the dual reciprocity method (DRM) in the way radial basis functions are used to approximate the body

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

For two-dimensional solids the multiregion concept and the time-domain approach in the boundary element method are employed to model cracks in transient dynamics. The propagation of cracks and the closing and opening of crack sides are simulated by disconnecting and connecting degrees of freedom of

In this paper a semi-analytical integration scheme is described which is designed to reduce the errors that can result with the numerical evaluation of integrals with singular integrands. The semi-analytical scheme can be applied to quadratic subparametric triangular elements for use in thermoelasti