Parameter-dependent inhomogeneous boundary-value problems in Sobolev spaces

Abstract

We study a wide class of linear inhomogeneous boundary-value problems for rth order ODE-systems depending on a parameter μ in a general metric space M. The solutions belong to the Sobolev spaces (Wn+rp)m, n∈N\0\, m, r ∈ N, 1≤ p≤ ∞. The boundary conditions are of a most general form By=c, where B is an arbitrary continuous operator from (Wn+rp)m to Crm. They may thus contain derivatives of the unknown vector function of integer and/or fractional orders ≥ r. We find necessary and sufficient conditions for the continuity of solutions with respect to the parameter μ. We also prove that the solutions of the original problems can be approximated in the space (Wn+rp)m by solutions of ODE-systems with polynomial coefficients and multipoint boundary conditions, which do not depend on the right-hand sides of the original problem.

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