Discrete variable methods for delay-differential equations with threshold-type delays

this paper, variable stepsize multistep methods for delay differential equations of the type y(t) = f(t,?l(t),y(t -r)) are proposed. Error bounds for the global discretization error of variable stepsize multistep methods for delay differential equations are explicitly computed. It is proved that a

Using the relatively new concept of a pullback attractor, we present some results on the existence of attractors for differential equations with variable delay. We give a variety of examples to which our result applies.

In this paper, variable stepsize multistep methods for higher-order delay differential equations of the type y(')(t) = f(t,y(t),y(t -r)) are proposed. Explicit error bounds for the global discretization error are given. It is proved that a variable multistep method which is a perturbation of strongl

Consider the delay differential equation xЈ t q p t x t y s 0, where p t g Žw . q . C t ,ϱ , R and is a positive constant. We obtain a sharp sufficient condition 0 for the oscillation of this equation, which improves previously known results.