Modelling of the Dynamic State of Disperse Systems

This paper discusses the need for formal criteria for the establishment of confidence in, or the ''validation'' of, system dynamics models constructed for fee-paying clients as opposed to for academic research purposes. The meaning of ''validation'' is first considered and the substantial difference

The problem of designing dynamic controllers for a class of linear dynamical systems with time-varying delays subject to input disturbance as well as output measurement error and in which some parameters are unknown-but-bounded is considered. It is establishing that when certain structural constrain

## Abstract A dynamic longitudinal internal conductivity model, derived from the classical method of moments, is applied to the analysis of recent simulation data and reflectivity measurements of shock‐compressed dense xenon plasmas. This model satisfies both the non‐zero __f__–sum rule and the sec

A distributed transfer function synthesis is developed for modelling and analysis of rotor systems assembled from multiple flexible and rigid components. The method delivers highly accurate and closed-form analytical solutions, and is capable of treating non-self-adjoint effects, general boundary co

This paper presents a model based on Hamilton's law of varying action for stochastic dynamic systems. In this model, the state variables are approximated as a linear sum of orthogonal polynomials. For deterministic systems, the coefficients of the polynomials are constant, but for stochastic systems