We illustrate procedures to identify a state-space representation of a lossless or dissipative
system from a given noise-free trajectory; important special cases are passive systems and …

In this paper, a novel fault diagnosis scheme for linear process systems using dissipativity
theory is developed. Dissipativity (supply rate) of a process is an input/output property, which …

This paper is concerned with a characterization of all symmetric solutions to the discrete-
time algebraic Riccati equation (DARE). Dissipation theory and quadratic difference forms …

Model-based control methods play an important role in control theory. Such controllers are
designed via system identification; however, this approach is not applicable to cases where …

We address the issue of stabilizing control design of DC–DC power converters with active
loads, eg distributed generation systems, cascade converters, converters feeding DC buses …

We study the notion of state for a class of linear discrete time-varying systems and provide a
characterization of polynomial operator in the shift used to define state trajectory from both …

In this paper we consider a special class of discrete-time dissipative systems, that consisting
of those systems for which the dissipation rate is instantaneously positive on all nonzero …

We study discrete time dissipativeness. Particularly, we focus on storage functions. Different
from the continuous time case, every storage function is not necessarily a state function in …

Recently, dynamical systems in science and engineering problems become increasingly
larger and too complex. One of the ways to solve the difficulty is to model the systems with a …

Process networks are characterised by their large-scale and strong interaction effects. As
such, a scalable control design approach, which can account for interactions, is required …