Discrete and non-discrete mixed methods applied to eigenvalue problems of plates

## Abstract For plate bending analysis, both discrete and non‐discrete mixed methods are presented by using spline functions in the Hellinger‐Reissner variational principle. Piecewise spline interpolation with local supports and overall spline interpolation with boundary knots are applied to each o

## Abstract The method of lines (MoL) and discrete mode‐matching (DMM) method were originally applied to problems with separable boundaries and lateral homogeneity (for instance, layered planar structures). Since then, these methods have been directly applied to structures with non‐separable bounda

In this paper we discuss the Discrete Compactness Property (DCP) which is a well-known tool for the analysis of finite element approximations of Maxwell's eigenvalues. We restrict our presentation to Maxwell's eigenvalues, but the theory applies to more general situations and in particular to mixed

The investigation reported in this paper constitutes the second phase of an on-going research project that aims at developing techniques for the computation and analysis of response of complex structures excited by non-parametric and parametric non-stationary random disturbances. In this second phas