Leonid Berezansky, Elena Braverman
Published 2016-06-09Version 1
For a nonlinear equation with several variable delays $$ \dot{x}(t)=\sum_{k=1}^m f_k(t, x(h_1(t)),\dots,x(h_l(t)))-g(t,x(t)), $$ where the functions $f_k$ increase in some variables and decrease in the others, we obtain conditions when a positive solution exists on $[0, \infty)$, as well as explore boundedness and persistence of solutions. Finally, we present sufficient conditions when a solution is unbounded. Examples include the Mackey-Glass equation with non-monotone feedback and two variable delays; its solutions can be neither persistent nor bounded, unlike the well studied case when these two delays coincide.
Comments: 24 pages, published in Applied Mathematics and Computation, 2016
Journal: Applied Mathematics and Computation 279 (2016) 154-169
High-order Lohner-type algorithm for rigorous computation of Poincaré maps in systems of Delay Differential Equations with several delays
Switching to nonhyperbolic cycles from codimension two bifurcations of equilibria of delay differential equations
Pseudospectral approximation of Hopf bifurcation for delay differential equations
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