AbstractNew explicit exponential stability conditions are obtained for the nonautonomous linear equation ẋ(t)+a(t)x(h(t))=0, where h(t)≤t and a(t) is an oscillating function.We apply the comparison method based on the Bohl–Perron type theorem. Coefficients and delays are not assumed to be continuous.Some real-world applications and several examples are also discussed
This paper is concerned with the uniform exponential stability of ordinary and delay dynamic equatio...
Abstract. For the equation with a distributed delay x′(t) + ax(t) + Z 1 0 x(s+ [t − 1])dR(s) = 0 we...
AbstractFor an impulsive delay differential equation with bounded delay and bounded coefficients the...
AbstractNew explicit conditions of exponential stability are obtained for the nonautonomous linear e...
AbstractNew explicit conditions of exponential stability are obtained for the nonautonomous equation...
AbstractNew explicit exponential stability conditions are obtained for the nonautonomous linear equa...
: The aim of this paper is to investigate the exponential stability of a nonlinear differential dela...
Consider the linear differential equation x(t)= Σi=1npi(t)x(t-ti)=0, t≥t0where p C([t0∞), R) and ti\...
summary:We consider preservation of exponential stability for the scalar nonoscillatory linear equat...
AbstractNew explicit conditions of exponential stability are obtained for the nonautonomous linear e...
We provide explicit conditions for uniform stability, global asymptotic stability and uniform expone...
summary:We propose a new method for studying stability of second order delay differential equations....
AbstractOscillation properties of two following equations are compared: a scalar nonlinear delay dif...
AbstractSystems of linear nonautonomous delay differential equations are considered which are of the...
This study obtains a new set of integral conditions for oscillation of nonautonomous delay different...
This paper is concerned with the uniform exponential stability of ordinary and delay dynamic equatio...
Abstract. For the equation with a distributed delay x′(t) + ax(t) + Z 1 0 x(s+ [t − 1])dR(s) = 0 we...
AbstractFor an impulsive delay differential equation with bounded delay and bounded coefficients the...
AbstractNew explicit conditions of exponential stability are obtained for the nonautonomous linear e...
AbstractNew explicit conditions of exponential stability are obtained for the nonautonomous equation...
AbstractNew explicit exponential stability conditions are obtained for the nonautonomous linear equa...
: The aim of this paper is to investigate the exponential stability of a nonlinear differential dela...
Consider the linear differential equation x(t)= Σi=1npi(t)x(t-ti)=0, t≥t0where p C([t0∞), R) and ti\...
summary:We consider preservation of exponential stability for the scalar nonoscillatory linear equat...
AbstractNew explicit conditions of exponential stability are obtained for the nonautonomous linear e...
We provide explicit conditions for uniform stability, global asymptotic stability and uniform expone...
summary:We propose a new method for studying stability of second order delay differential equations....
AbstractOscillation properties of two following equations are compared: a scalar nonlinear delay dif...
AbstractSystems of linear nonautonomous delay differential equations are considered which are of the...
This study obtains a new set of integral conditions for oscillation of nonautonomous delay different...
This paper is concerned with the uniform exponential stability of ordinary and delay dynamic equatio...
Abstract. For the equation with a distributed delay x′(t) + ax(t) + Z 1 0 x(s+ [t − 1])dR(s) = 0 we...
AbstractFor an impulsive delay differential equation with bounded delay and bounded coefficients the...