On Stability of Delay Equations with Positive and Negative Coefficients with Applications

Abstract

We obtain new explicit exponential stability conditions for linear scalar equations with positive and negative delayed terms \dot{x}(t)+ \sum_{k=1}^m a_k(t)x(h_k(t))- \sum_{k=1}^l b_k(t)x(g_k(t))=0 and its modifications, and apply them to investigate local stability of Mackey–Glass type models \dot{x}(t)=r(t)\left[\beta\frac{x(g(t))}{1+x^n(g(t))}-\gamma x(h(t))\right] and \dot{x}(t)=r(t)\left[\beta\frac{x(g(t))}{1+x^n(h(t))}-\gamma x(t)\right],