AbstractIn this paper we present an asymptotic formula for the solutions of the nonautonomous delay differential equation ẋ(t) = (a0 + a(t))x(t) + (b0 + b(t))x(t − τ), assuming that it is an L2-perturbation of the autonomous equation ẋ(t) = a0x(t) + b0x(t − τ). Our theorem is an essential generalization of the corresponding result in the classical book by R. Bellman and K. L. Cooke. The proof is based on a new result on the asymptotic constancy of the solutions of a linear delay equation
A wide class of second order linear autonomous delay differential equations with distributed type d...
We study a linear delay differential equation with a single positive and a single negative term. We ...
We use some consequences of the concept of semihyperbolicity of the solution operator to show robust...
AbstractIn this paper we present an asymptotic formula for the solutions of the nonautonomous delay ...
AbstractThe aim of this paper is to obtain an asymptotic formula for each solution of a l2-perturbed...
summary:In this paper we investigate the asymptotic properties of all solutions of the delay differe...
Abstract. In this paper, we study the asymptotic behavior of linear differential equations under non...
AbstractNew explicit conditions of exponential stability are obtained for the nonautonomous equation...
AbstractIn this paper, the author investigates the asymptotic properties of solutions of the nonhomo...
Consider the linear differential equation x(t)= Σi=1npi(t)x(t-ti)=0, t≥t0where p C([t0∞), R) and ti\...
In this thesis we construct a perturbation method for delay differential equations (DDEs) based on t...
AbstractSufficient conditions are obtained respectively for the asymptotic stability of the trivial ...
AbstractIt is known that the general solution of a linear delay differential equation is given by th...
AbstractNew explicit exponential stability conditions are obtained for the nonautonomous linear equa...
We are concerned with a class of $n$-dimensional non-autonomous delay differential equations obtaine...
A wide class of second order linear autonomous delay differential equations with distributed type d...
We study a linear delay differential equation with a single positive and a single negative term. We ...
We use some consequences of the concept of semihyperbolicity of the solution operator to show robust...
AbstractIn this paper we present an asymptotic formula for the solutions of the nonautonomous delay ...
AbstractThe aim of this paper is to obtain an asymptotic formula for each solution of a l2-perturbed...
summary:In this paper we investigate the asymptotic properties of all solutions of the delay differe...
Abstract. In this paper, we study the asymptotic behavior of linear differential equations under non...
AbstractNew explicit conditions of exponential stability are obtained for the nonautonomous equation...
AbstractIn this paper, the author investigates the asymptotic properties of solutions of the nonhomo...
Consider the linear differential equation x(t)= Σi=1npi(t)x(t-ti)=0, t≥t0where p C([t0∞), R) and ti\...
In this thesis we construct a perturbation method for delay differential equations (DDEs) based on t...
AbstractSufficient conditions are obtained respectively for the asymptotic stability of the trivial ...
AbstractIt is known that the general solution of a linear delay differential equation is given by th...
AbstractNew explicit exponential stability conditions are obtained for the nonautonomous linear equa...
We are concerned with a class of $n$-dimensional non-autonomous delay differential equations obtaine...
A wide class of second order linear autonomous delay differential equations with distributed type d...
We study a linear delay differential equation with a single positive and a single negative term. We ...
We use some consequences of the concept of semihyperbolicity of the solution operator to show robust...