Asymptotic waveform evaluation via a Lanczos method

The multi-dimensional asymptotic waveform evaluation (MD-AWE) method is proposed as an extension of the conventional one dimensional asymptotic waveform evaluation (1D-AWE) method. It can be applied in parameter analysis of structures, particularly with multiple variables, at which repeated calculat

A new technique to estimate the effective bandwidth of the asymptotic waveform evaluation (AWE) method is proposed, which guarantees the reliable application of AWE in a certain region. Furthermore, based on the effective bandwidth estimation, we develop a novel broadband AWE method, which is an ext

state. In spite of these differences, the three structures show fairly similar modal properties.

## Abstract The recently developed on‐surface discretized boundary equation (OS‐DBE) method for scattering by a conducting cylinder allows an independent determination of the current density at any given point on the object surface with a matrix of smaller order than that in the method of moments.

## Abstract In this article, an application of the asymptotic waveform evaluation technique to accelerate wideband scattering analysis by lossless dielectric objects is given. The solution is based on the volume integral equation together with the method‐of‐moments. Computational examples for so‐ca