I. Introduction

Monotone systems represent an important class of dynamical systems that are of interest both for their applicability to a number of practical problems and for their rich mathematical structure. The order-preserving structure of these systems allows strong results concerning their stability properties to be obtained. In the celebrated work [1], Hirsch established results of generic convergence, guaranteeing convergence of almost every bounded solution of any such system for which the monotonicity property holds strongly to the equilibrium set, provided this set is nonempty. In systems of differential equations that are not autonomous, however, the equilibrium set of even a monotone system will frequently be empty, so the generic convergence results are not directly applicable. Instead, a property that is often of interest is the concept of global convergence. A solution is said to be globally convergent if it is stable and all other solutions converge to it as time tends to infinity, and so this idea is of particular use in problems of system tracking or prediction. A system that admits a globally convergent solution, and hence for which all trajectories converge to one another, is said to be incrementally globally convergent.