Error analysis in hybrid computer simulation of dynamic systems

This note analyses the problem of stability of hybrid simulation of dynamic systems. Time delays and sample-and-hold operations do cause serious stability problems, and it frequently happens that considerable time and effort are wasted because instability is not known in advance of programming the s

A fast efficient algorithm may be used for integrating very large (n >> 10) stiffdifferential equations of the type R = Ax + Bu + f(x, t), x(t0) = x0, wh ere f(x, t) has a small Lipschitz constant. Summary--An algorithm for integrating high dimensional stiff nonlinear differential equations of the

The need for more accurate analysis of real physical systems has led to the use of stochastic modelling of such systems. Many of these formulations have been the result of an extension of ordinary differential equations to include a white noise excitation. It has been shown (see, e.g. [l-3]) that wh

Hybrid computer programming automation research is giving rise to a renewed interest in standard hybrid programming configurations. The stability of implementations whereby only time integrations and first-order prediction compensation are performed in the analog section is examined as a function of