Componentwise asymptotic stability of linear constant dynamical systems

In this paper, sufficient conditions for almost sure stability and asymptotic stability of certain classes of linear stochastic distributed-parameter dynamical systems are derived. These systems are described by a set of linear partial differential or differential-integral equations with stochastic parameters. Various examples are given to illustrate the application of the main results.

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On asymptotic stability in dynamical systems

Mathematical Systems Theory ◽

10.1007/bf01705521 ◽

1967 ◽

Vol 1 (2) ◽

pp. 113-127 ◽

Cited By ~ 11

Author(s):

Nam P. Bhatia

Keyword(s):

Dynamical Systems ◽

Asymptotic Stability

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Constructive stability and asymptotic stability of dynamical systems

IEEE Transactions on Circuits and Systems ◽

10.1109/tcs.1980.1084749 ◽

1980 ◽

Vol 27 (11) ◽

pp. 1121-1130 ◽

Cited By ~ 163

Author(s):

R. Brayton ◽

C. Tong

Keyword(s):

Dynamical Systems ◽

Asymptotic Stability ◽

Stability Of Dynamical Systems

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State Observation for Lipschitz Nonlinear Dynamical Systems Based on Lyapunov Functions and Functionals

Mathematics ◽

10.3390/math8091424 ◽

2020 ◽

Vol 8 (9) ◽

pp. 1424 ◽

Cited By ~ 2

Author(s):

Angelo Alessandri ◽

Patrizia Bagnerini ◽

Roberto Cianci

Keyword(s):

Dynamical Systems ◽

Asymptotic Stability ◽

Lyapunov Functions ◽

Nonlinear Dynamical Systems ◽

Estimation Error ◽

Stability Conditions ◽

Nonlinear Dynamical ◽

State Observation ◽

State Observers ◽

The Stability

State observers for systems having Lipschitz nonlinearities are considered for what concerns the stability of the estimation error by means of a decomposition of the dynamics of the error into the cascade of two systems. First, conditions are established in order to guarantee the asymptotic stability of the estimation error in a noise-free setting. Second, under the effect of system and measurement disturbances regarded as unknown inputs affecting the dynamics of the error, the proposed observers provide an estimation error that is input-to-state stable with respect to these disturbances. Lyapunov functions and functionals are adopted to prove such results. Third, simulations are shown to confirm the theoretical achievements and the effectiveness of the stability conditions we have established.

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Topological Hopf bifurcation in the plane

Mathematical Proceedings of the Cambridge Philosophical Society ◽

10.1017/s0305004100060370 ◽

1983 ◽

Vol 93 (1) ◽

pp. 113-119

Author(s):

Dieter Erle

Keyword(s):

Hopf Bifurcation ◽

Dynamical Systems ◽

Asymptotic Stability ◽

Stationary Point ◽

Parameter Family ◽

Stability Behaviour ◽

Closed Orbits ◽

The Stability ◽

Image Position ◽

Negative System

Classical bifurcation theorems for a 1 -parameter family of plane dynamical systemsassert the presence of closed orbits clustering at some distinguished parameter value (∈ = 0, say). Here, for any ∈, the origin is the only stationary point. The topological content of the mostly analytic hypotheses imposed is some change in the stability behaviour of the origin at ∈ = 0, roughly the passing of a kind of stability to a kind of instability. Topologically speaking, e.g. some of the conditions demanded are asymptotic stability of the origin for the negative system at ∈ > 0 and asymptotic stability of the origin for at ∈ < 0 (Hopf (8), Ruelle and Takens(11)) or ∈ = 0 (Chafee(2)).

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