Existence Result for Difference Equations on Non-Uniform Grids via Upper and Lower Solution Method

Abstract

This paper establishes an existence theory for discrete second-order boundary value problems on non-uniform time grids using the upper and lower solution method. We consider difference equations of the form u(ti-1) + f(ti, u(ti), u(ti-1)) = 0 on a non-uniform time grid t0, t1, …, tn+2 with mixed boundary conditions u(t0) = 0 and u(tn+2) = g(tn+2). This extends previous work on homogeneous boundary conditions to the non-homogeneous case, requiring a sophisticated functional analytic framework to handle the resulting affine function spaces. Our approach employs a decomposition strategy that separates boundary effects from the differential structure, enabling the application of Brouwer's Fixed Point Theorem to establish existence with solutions bounded between upper and lower functions.