Title :
Non-intrusive generalized polynomial chaos approach to the stability analysis of uncertain nonlinear dynamic systems
Author :
Nechak, Lyes ; Berger, Sebastien ; Aubry, Evelyne
Author_Institution :
MIPS Lab., Mulhouse, France
Abstract :
This paper is devoted to the stability analysis of uncertain nonlinear dynamic systems. The generalized polynomial chaos formalism is proposed to deal with this challenging problem treated in most cases by using the prohibitive Monte Carlo based techniques. Two equivalent methods combining the non-intrusive generalized polynomial chaos with the indirect Lyapunov method are presented. Both methods are shown to be efficient in the estimation of the stability and instability regions of nonlinear dynamic systems with probabilistic uncertainties. Indeed, it is illustrated that the proposed methods give results of high accuracy and high confidence levels at lower cost compared with the classic Monte Carlo based method.
Keywords :
Lyapunov methods; Monte Carlo methods; nonlinear dynamical systems; stability; uncertain systems; Monte Carlo based techniques; generalized polynomial chaos approach; indirect Lyapunov method; nonlinear dynamic systems; probabilistic uncertainty; stability analysis; uncertain system; Chaos; Eigenvalues and eigenfunctions; Numerical stability; Polynomials; Power system stability; Stability criteria; Lyapunov indirect method; Uncertain nonlinear dynamic system; generalized polynomial chaos; nonintrusive approach; stability analysis;
Conference_Titel :
Systems, Signals and Devices (SSD), 2011 8th International Multi-Conference on
Conference_Location :
Sousse
Print_ISBN :
978-1-4577-0413-0
DOI :
10.1109/SSD.2011.5767403
