A note on energy conservation and stability of nonlinear time-stepping algorithms

The use of stabilization techniques for incompressibility and convective acceleration is currently an active area of research in the ÿnite element analysis. A related issue on the topic of stabilization is addressed in this paper. The procedure discussed here is demonstrated using the CBS algorithm

## Abstract In this note we suggest a new approach to ensure energy conservation in time‐continuous finite element methods for non‐linear Hamiltonian problems. Copyright © 2001 John Wiley & Sons, Ltd.

An integration formula for polynomial expressions in terms of the unit triangle co-ordinates is presented ## Discussion Eisenberg and Malvern' have derived relations for integrating products with non-integer exponents in terms of area co-ordinates. Other worker^^,^ often utilize two-dimensional e

In this paper a class of nonlinear evolution problems is considered. It is shown that, under special conditions, the application of the product approximation method for nonlinear problems in the finite element method results in constant (ie. time-independent) matrices. In those cases the amount of c

This paper addresses the existence and uniqueness of a solution and stability for Lipschitz discrete-time descriptor systems. By means of the fixed point principle, a criterion is presented via a matrix inequality, and the criterion guarantees the existence and uniqueness of a solution. In addition,

An analysis of the effect of parameter perturbations on the stability of input-output linearizing controllers for a class of MIMO discrete-time nonlinear systems is presented. A static-state feedback is designed to input-output linearize a system without perturbations, and it is applied to the same