Asymptotic periodic solutions of differential equations with infinite delay

Abstract

In this paper, by using the spectral theory of functions and properties of evolution semigroups, we establish conditions on the existence, and uniqueness of asymptotic 1-periodic solutions to a class of abstract differential equations with infinite delay of the form equation* d u(t)d t=A u(t)+L(ut)+f(t) equation* where A is the generator of a strongly continuous semigroup of linear operators, L is a bounded linear operator from a phase space B to a Banach space X, ut is an element of B which is defined as ut(θ)=u(t+θ) for θ ≤ 0 and f is asymptotic 1-periodic in the sense that t → ∞(f(t+1)- f(t))=0. A Lotka-Volterra model with diffusion and infinite delay is considered to illustrate our results.