AbstractIn this paper, we study the stability of a class of impulsive functional differential equations with infinite delays. We establish a uniform stability theorem and a uniform asymptotic stability theorem, which shows that certain impulsive perturbations may make unstable systems uniformly stable, even uniformly asymptotically stable
We consider a class of functional differential equations subject to perturbations, which vary in tim...
AbstractLiapunov methods are used to give conditions ensuring that the zero solution of a system of ...
We consider a class of functional differential equations subject to perturbations, which vary in tim...
AbstractIn this paper, we study the stability of a class of impulsive functional differential equati...
AbstractA criterion for the uniform stability of impulsive functional differential equations with in...
AbstractIn this work, we investigate the stability of a class of impulsive functional differential e...
In this paper, the stability problem of impulsive functional differential equations with infinite de...
In this paper we ensure that for some class of impulsive differential equations with delay the zero ...
AbstractIn this work, we consider a new approach to the practical stability theory of impulsive func...
AbstractIn this work, we consider the stability of impulsive infinite delay differential equations. ...
For a family of differential equations with infinitive delay and impulses, we establish conditions f...
This paper is concerned with a class of linear impulsive delay differential equations. Asymptotic st...
AbstractIn this note, we study the exponential stability of impulsive functional differential system...
We consider a class of functional differential equations subject to perturbations, which vary in tim...
We consider a class of functional differential equations subject to perturbations, which vary in tim...
We consider a class of functional differential equations subject to perturbations, which vary in tim...
AbstractLiapunov methods are used to give conditions ensuring that the zero solution of a system of ...
We consider a class of functional differential equations subject to perturbations, which vary in tim...
AbstractIn this paper, we study the stability of a class of impulsive functional differential equati...
AbstractA criterion for the uniform stability of impulsive functional differential equations with in...
AbstractIn this work, we investigate the stability of a class of impulsive functional differential e...
In this paper, the stability problem of impulsive functional differential equations with infinite de...
In this paper we ensure that for some class of impulsive differential equations with delay the zero ...
AbstractIn this work, we consider a new approach to the practical stability theory of impulsive func...
AbstractIn this work, we consider the stability of impulsive infinite delay differential equations. ...
For a family of differential equations with infinitive delay and impulses, we establish conditions f...
This paper is concerned with a class of linear impulsive delay differential equations. Asymptotic st...
AbstractIn this note, we study the exponential stability of impulsive functional differential system...
We consider a class of functional differential equations subject to perturbations, which vary in tim...
We consider a class of functional differential equations subject to perturbations, which vary in tim...
We consider a class of functional differential equations subject to perturbations, which vary in tim...
AbstractLiapunov methods are used to give conditions ensuring that the zero solution of a system of ...
We consider a class of functional differential equations subject to perturbations, which vary in tim...
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