Showing total 9 results

1. Asymptotic Stability Analysis of Discrete-Time Switched Cascade Nonlinear Systems With Delays.

Author

Liu, Xingwen and Zhong, Shouming

Subjects

*NONLINEAR systems, *GLOBAL asymptotic stability, *EXPONENTIAL stability, *NONLINEAR analysis

Abstract

This paper addresses the stability issue of a class of delayed switched cascade nonlinear systems consisting of separate subsystems and coupling terms between them. Some global and local asymptotic stability sufficient conditions are proposed, drawing stability conclusion of the overall cascade system from those of separate systems. These results essentially rely on the following observation: For a general delayed switched nonlinear system being asymptotically stable, the trajectories of the perturbed system asymptotically approach zero if so does the perturbation. This observation is one of the main results in this paper. [ABSTRACT FROM AUTHOR]

Published

2020

2. Input-to-State Stability of Time-Varying Switched Systems With Time Delays.

Author

Wu, Xiaotai, Tang, Yang, and Cao, Jinde

Subjects

*TIME delay systems, *LYAPUNOV functions, *LINEAR matrix inequalities, *DIFFERENTIAL equations, *NUMERICAL analysis

Abstract

This paper considers the input-to-state stability (ISS) of time-varying switched systems with time delays, where the upper bound estimation for the operator of Lyapunov function (UBEOL) is assumed to be time varying and mode dependent. The ISS and integral ISS are investigated for time-varying switched systems with time delays by using the Lyapunov–Razumikhin and comparison theorem methods. Since the coefficient in the UBEOL is time varying and takes a positive/negative value, the subsystems consist of both ISS and non-ISS subsystems, simultaneously. It is shown that our presented results have wider applications than some existing works. Two examples, including one of the consensus for time-varying multiagent systems with cooperative and competitive protocols, are presented to demonstrate the effectiveness of the proposed results. [ABSTRACT FROM AUTHOR]

Published

2019

3. Stability Analysis for Continuous-Time Switched Systems With Stochastic Switching Signals.

Author

Wu, Xiaotai, Tang, Yang, Cao, Jinde, and Mao, Xuerong

Subjects

*STABILITY (Mechanics), *SWITCHING systems (Telecommunication), *STOCHASTIC systems, *CONTINUOUS time systems, *MARKOV processes

Abstract

This paper is concerned with the stability problem of randomly switched systems. By using the probability analysis method, the almost surely globally asymptotical stability and almost surely exponential stability are investigated for switched systems with semi-Markovian switching, Markovian switching, and renewal process switching signals, respectively. Two examples are presented to demonstrate the effectiveness of the proposed results, in which an example of consensus of multiagent systems with nonlinear dynamics is taken into account. [ABSTRACT FROM AUTHOR]

Published

2018

4. Quasi-Time-Dependent Output Control for Discrete-Time Switched System With Mode-Dependent Average Dwell Time.

Author

Fei, Zhongyang, Shi, Shuang, Wang, Zhenhuan, and Wu, Ligang

Subjects

*DISCRETE-time systems, *LYAPUNOV functions, *DIFFERENTIAL equations, *CHAOS generators, *FLIGHT control systems

Abstract

This paper is concerned with dynamic output feedback control for a class of switched systems with mode-dependent average dwell-time switching. By constructing a quasi-time-dependent Lyapunov function, the issues of global uniform asymptotic stability and $\ell _{2}$ -gain analysis for the switched system are addressed first. Then, a set of reduced-order output feedback controllers is designed, which is both mode-dependent and quasi-time-dependent. Compared with time-independent criteria, the new results greatly reduce the conservatism. The effectiveness and merits of the proposed method are illustrated with a numerical example. [ABSTRACT FROM AUTHOR]

Published

2018

5. A Characterization of Integral ISS for Switched and Time-Varying Systems.

Author

Haimovich, H. and Mancilla-Aguilar, J. L.

Subjects

*MATHEMATICAL models of time-varying systems, *STABILITY of nonlinear systems, *INTEGRAL theorems, *SWITCHING system performance, *SYSTEM dynamics, PERSISTENCE

Abstract

Most of the existing characterizations of the integral input-to-state stability (iISS) property are not valid for time-varying or switched systems in cases where converse Lyapunov theorems for stability are not available. This paper provides a characterization that is valid for switched and time-varying systems, and shows that natural extensions of some of the existing characterizations result in only sufficient but not necessary conditions. The results provided also pinpoint suitable iISS gains and relate these to supply functions and bounds on the function defining the system dynamics. [ABSTRACT FROM PUBLISHER]

Published

2018

6. Multiple Lyapunov Functions-Based Small-Gain Theorems for Switched Interconnected Nonlinear Systems.

Author

Long, Lijun

Subjects

*LYAPUNOV functions, *NONLINEAR systems, *SMALL-gain theorem (Mathematics), *STABILITY criterion, *DYNAMICAL systems

Abstract

Multiple Lyapunov functions (MLFs)-based small-gain theorems are presented for switched interconnected nonlinear systems with unstable subsystems, which extend the small-gain technique from its original non-switched nonlinear version to a switched nonlinear version. Each low dimensional subsystem does not necessarily have the input-to-state stability (ISS) property in the whole state space, and it only has individual ISS property in some subregions of the state space. The novelty of this paper is that integral-type MLFs and small-gain techniques are utilized to establish some MLFs-based small-gain theorems for switched interconnected nonlinear systems, which derive various stability results under some novel switching laws designed and construct integral-type MLFs. The small-gain theorems proposed cover several recent results as special cases, which also permit removal of a common restriction in which all low dimensional subsystems in switched interconnected systems are ISS or only some are ISS and others are not. Finally, two illustrative examples are presented to demonstrate the effectiveness of the results provided. [ABSTRACT FROM AUTHOR]

Published

2017

7. Stability of Stochastic Nonlinear Systems With State-Dependent Switching.

Author

Wu, Zhaojing, Cui, Mingyue, Shi, Peng, and Karimi, Hamid Reza

Subjects

*STOCHASTIC systems, *SYSTEM analysis, *DYNKIN diagrams, *LYAPUNOV stability, *QUASISTATIC processes

Abstract

In this paper, the problem of stability on stochastic systems with state-dependent switching is investigated. To analyze properties of the switched system by means of Itô's formula and Dynkin's formula, it is critical to show switching instants being stopping times. When the given active-region set can be replaced by its interior, the local solution of the switched system is constructed by defining a series of stopping times as switching instants, and the criteria on global existence and stability of solution are presented by Lyapunov approach. For the case where the active-region set can not be replaced by its interior, the switched systems do not necessarily have solutions, thereby quasi-solution to the underlying problem is constructed and the boundedness criterion is proposed. The significance of this paper is that all the results presented depend on some easily-verified assumptions that are as elegant as those in the deterministic case, and the proofs themselves provide design procedures for switching controls. [ABSTRACT FROM AUTHOR]

Published

2013

8. Stability and Stabilizability of Continuous-Time Linear Compartmental Switched Systems.

Author

Valcher, Maria Elena and Zorzan, Irene

Subjects

*STABILITY of linear systems, *SWITCHING theory, *ASYMPTOTIC distribution, *EXISTENCE theorems, *MATRICES (Mathematics)

Abstract

In this paper, we introduce continuous-time linear compartmental switched systems and investigate their stability and stabilizability properties. By their nature, these systems are always stable. Necessary and sufficient conditions for asymptotic stability for arbitrary switching functions, and sufficient conditions for asymptotic stability under certain dwell-time conditions on the switching functions are proposed. Finally, stabilizability is thoroughly investigated and proved to be equivalent to the existence of a Hurwitz convex combination of the subsystem matrices, a condition that, for positive switched systems, is only sufficient for stabilizability. [ABSTRACT FROM AUTHOR]

Published

2016

9. Stability and Stabilizability Criteria for Discrete-Time Positive Switched Systems.

Author

Fornasini, Ettore and Valcher, Maria Elena

Subjects

*DISCRETE-time systems, *SWITCHING circuits, *LYAPUNOV functions, *ASYMPTOTIC expansions, *LINEAR systems, *QUADRATIC equations

Abstract

In this paper we consider the class of discrete-time switched systems switching between p autonomous positive subsystems. First, sufficient conditions for testing stability, based on the existence of special classes of common Lyapunov functions, are investigated, and these conditions are mutually related, thus proving that if a linear copositive common Lyapunov function can be found, then a quadratic positive definite common function can be found, too, and this latter, in turn, ensures the existence of a quadratic copositive common function. Secondly, stabilizability is introduced and characterized. It is shown that if these systems are stabilizable, they can be stabilized by means of a periodic switching sequence, which asymptotically drives to zero every positive initial state. Conditions for the existence of state-dependent stabilizing switching laws, based on the values of a copositive (linear/quadratic) Lyapunov function, are investigated and mutually related, too. [ABSTRACT FROM PUBLISHER]

Published

2012