This paper presents a novel approach to robustness analysis based on quadratic performance metrics of uncertain time-varying systems. The considered time-varying systems are assumed to be linear and defined over a finite time horizon. The uncertainties are described in the form of real-valued random variables with a known probability distribution. The quadratic performance problem for this class of systems can be posed as a parametric Riccati differential equation (RDE). A new approach based on polynomial chaos expansion is proposed that can approximately solve the resulting parametric RDE and, thus, provide an approximation of the quadratic performance. Moreover, it is shown that for a zeroth order expansion this approximation is in fact a...
The objective of this study was to demonstrate the use of stochastic expansions in the quantificatio...
A numerical algorithm for computing necessary conditions for performance specifications is developed...
Some key results in the literature in the area of robustness analysis for linear feedback systems wi...
This thesis develops theoretical and computational methods for the robustness analysis of uncertain ...
We propose a framework tailored to robust optimal control (OC) problems subject to parametric model ...
In recent years significant effort was put into developing analytical worst-case analysis tools to s...
We consider time-average quantities of chaotic systems and their sensitivity to system parameters. W...
In this thesis, robust control of linear systems with parametric uncertainty is considered. The appr...
peer reviewedGeneralised polynomial chaos expansion provides a computationally efficient way of quan...
For many engineering problems, reliability and robustness are far more important than the nominal pe...
For many engineering problems, reliability and robustness are far more important than the nominal pe...
Physical systems are often perturbed by unknown external disturbances or contain important system pa...
ABSTRACT: Uncertainty quantification is the state-of-the-art framework dealing with uncertainties ar...
The robustness of a control system for a plant with parametric uncertainties is, in a broad sense, i...
Uncertainty quantification is the state-of-the-art framework dealing with uncertainties arising in a...
The objective of this study was to demonstrate the use of stochastic expansions in the quantificatio...
A numerical algorithm for computing necessary conditions for performance specifications is developed...
Some key results in the literature in the area of robustness analysis for linear feedback systems wi...
This thesis develops theoretical and computational methods for the robustness analysis of uncertain ...
We propose a framework tailored to robust optimal control (OC) problems subject to parametric model ...
In recent years significant effort was put into developing analytical worst-case analysis tools to s...
We consider time-average quantities of chaotic systems and their sensitivity to system parameters. W...
In this thesis, robust control of linear systems with parametric uncertainty is considered. The appr...
peer reviewedGeneralised polynomial chaos expansion provides a computationally efficient way of quan...
For many engineering problems, reliability and robustness are far more important than the nominal pe...
For many engineering problems, reliability and robustness are far more important than the nominal pe...
Physical systems are often perturbed by unknown external disturbances or contain important system pa...
ABSTRACT: Uncertainty quantification is the state-of-the-art framework dealing with uncertainties ar...
The robustness of a control system for a plant with parametric uncertainties is, in a broad sense, i...
Uncertainty quantification is the state-of-the-art framework dealing with uncertainties arising in a...
The objective of this study was to demonstrate the use of stochastic expansions in the quantificatio...
A numerical algorithm for computing necessary conditions for performance specifications is developed...
Some key results in the literature in the area of robustness analysis for linear feedback systems wi...