On nonlinear dynamic analysis using substructuring and mode superposition

A parallel method to solve large eigenvalue problems using dynamic substructuring and homotopy continuation is presented. Unlike the conventional approaches in substructuring, the non-linear term is not neglected for improved accuracy. Therefore, instead of solving the approximated condensed problem

Mode-superposition analysis is an efficient tool for the evaluation of the response of linear systems subjected to dynamic agencies. Two well-known mode-superposition methods are available in the literature, the mode-displacement method and the mode-acceleration method. Within this frame a method is

## Abstract Real‐time dynamic substructuring is an experimental technique for testing the dynamic behaviour of complex structures. It involves creating a hybrid model of the entire structure by combining an experimental test piece—the substructure—with a numerical model describing the remainder of

## Abstract Accurate full‐wave analysis of shielded microstrip discontinuities, based on a mode‐matching technique and employing Kühn's method is presented. Finite thickness of the strip metallization is taken into account. Examples include bends, T‐junctions, and crossings.