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- Title
Incremental nonlinear stability analysis of stochastic systems perturbed by Lévy noise.
- Authors
Han, SooJean; Chung, Soon‐Jo
- Abstract
We present a theoretical framework for characterizing incremental stability of nonlinear stochastic systems perturbed by either compound Poisson shot noise or finite‐measure Lévy noise. For each noise type, we compare trajectories of the perturbed system with distinct noise sample paths against trajectories of the nominal, unperturbed system. We show that for a finite number of jumps arising from the noise process, the mean‐squared error between the trajectories exponentially converge toward a bounded error ball across a finite interval of time under practical boundedness assumptions. The convergence rate for shot noise systems is the same as the exponentially stable nominal system, but with a tradeoff between the parameters of the shot noise process and the size of the error ball. The convergence rate and the error ball for the Lévy noise system are shown to be nearly direct sums of the respective quantities for the shot and white noise systems separately, a result which is analogous to the Lévy–Khintchine theorem. We demonstrate both empirical and analytical computation of the error ball using several numerical examples, and illustrate how varying the parameters of the system affect the tightness of the bound.
- Subjects
STOCHASTIC systems; NONLINEAR analysis; STABILITY of nonlinear systems; STOCHASTIC resonance; WHITE noise; STOCHASTIC analysis; NOISE; ROBUST stability analysis
- Publication
International Journal of Robust & Nonlinear Control, 2022, Vol 32, Issue 12, p7174
- ISSN
1049-8923
- Publication type
Article
- DOI
10.1002/rnc.6216