Add to ORKGThe concept of practical stability is generalized to nonlinear differential equations with non-instantaneous impulses. These type of impulses start their action abruptly at some points and then continue on given finite intervals. The practical stability and strict practical stability is studied using Lyapunov like functions and comparison results for scalar differential equations with non-instantaneous impulses. Several sufficient conditions for various types of practical stability, practical quasi stability and strict practical stability are established. Some examples are included to illustrate our theoretical results
AbstractThis paper studies the practical stability of the solutions of nonlinear impulsive functiona...
We introduce two Ulam's type stability concepts for nonautonomous linear impulsive ordinary differen...
This book is devoted to impulsive functional differential equations which are a natural generalizati...
The concept of practical stability is generalized to nonlinear differential equations with non-insta...
AbstractIn this paper, the stability of functional differential equations (FDE) with impulses is inv...
Abstract In this paper an integro-differential system of equations, with fixed moments of non instan...
The object of investigations is a system of impulsive differential equations with “supremum.” These ...
In this paper, some sufficient conditions for uniform practical stability of impulsive functional di...
A new class of impulsive differential equations with noninstantaneous fixed time impulses is conside...
AbstractStrict stability is the kind of stability that can give us some information about the rate o...
AbstractEffective sufficient conditions are found for stability with respect to part of the variable...
AbstractIn this work, we consider a new approach to the practical stability theory of impulsive func...
AbstractEffective sufficient conditions are found for stability with respect to part of the variable...
AbstractIn this paper, we consider practical stability of impulsive functional differential equation...
AbstractIn this paper we introduce a new stability—eventual practical stability for impulsive differ...
AbstractThis paper studies the practical stability of the solutions of nonlinear impulsive functiona...
We introduce two Ulam's type stability concepts for nonautonomous linear impulsive ordinary differen...
This book is devoted to impulsive functional differential equations which are a natural generalizati...
The concept of practical stability is generalized to nonlinear differential equations with non-insta...
AbstractIn this paper, the stability of functional differential equations (FDE) with impulses is inv...
Abstract In this paper an integro-differential system of equations, with fixed moments of non instan...
The object of investigations is a system of impulsive differential equations with “supremum.” These ...
In this paper, some sufficient conditions for uniform practical stability of impulsive functional di...
A new class of impulsive differential equations with noninstantaneous fixed time impulses is conside...
AbstractStrict stability is the kind of stability that can give us some information about the rate o...
AbstractEffective sufficient conditions are found for stability with respect to part of the variable...
AbstractIn this work, we consider a new approach to the practical stability theory of impulsive func...
AbstractEffective sufficient conditions are found for stability with respect to part of the variable...
AbstractIn this paper, we consider practical stability of impulsive functional differential equation...
AbstractIn this paper we introduce a new stability—eventual practical stability for impulsive differ...
AbstractThis paper studies the practical stability of the solutions of nonlinear impulsive functiona...
We introduce two Ulam's type stability concepts for nonautonomous linear impulsive ordinary differen...
This book is devoted to impulsive functional differential equations which are a natural generalizati...