Fast green's function evaluation for sources and observers near smooth convex bodies

An efficient procedure for the evaluation of the Green's function for a source and multiple observation points near a convex impedance boundary cylinder is presented. The evaluation is performed using non-uniform grids spread along the cylinder's perimeter and regionally tailored for capturing the Green's function's behavior in the line-of-sight and shadow regions. On these grids, the Green's function is assumed to be accurately pre-computed using analytical or numerical techniques. The procedure is demonstrated for the circular case associated with the generalized equivalence integral equation.