Application of an accelerated boundary-based mesh-free method to two-dimensional problems in potential theory

Abstract: The boundary node method (BNM) is a boundary-only meshfree method based on boundary integral equations (BIE). One drawback of the usual BNM, however, is that it typically requires much more computer time than the usual boundary element method (BEM). The multipole method (MM) has been demonstrated, in the context of the n body problem, and the BEM, to greatly accelerate these methods while still maintaining sufficient accuracy. The present paper explores, for the first time, a coupling of the BNM with the MM (… Show more

“…[37] where the author states that ''with fast multipole accelerated BIEM, problems of the size of 10 6 unknowns are well within reach even for users of desktop computers''). Also, [38] presents a first attempt at accelerating the standard BNM by the MM. Parallel computing is another promising avenue.…”

“…This problem is very important because it could not be solved by the standard BNM in which curvilinear surface co-ordinates were used and ROIs were truncated at the edges. For this problem, the function u, obtained from (38), is again prescribed on the curved surface, while s = 0 is prescribed on the three flat surfaces.…”

The extended boundary node method for three-dimensional potential theory

“…[37] where the author states that ''with fast multipole accelerated BIEM, problems of the size of 10 6 unknowns are well within reach even for users of desktop computers''). Also, [38] presents a first attempt at accelerating the standard BNM by the MM. Parallel computing is another promising avenue.…”

“…This problem is very important because it could not be solved by the standard BNM in which curvilinear surface co-ordinates were used and ROIs were truncated at the edges. For this problem, the function u, obtained from (38), is again prescribed on the curved surface, while s = 0 is prescribed on the three flat surfaces.…”

The extended boundary node method for three-dimensional potential theory

Thermal analysis of 3D composites by a new fast multipole hybrid boundary node method

A new semi-analytical method with diagonal coefficient matrices for potential problems