Convex C1 extensions of 1-jets from compact subsets of Hilbert spaces

Abstract

Let X denote a Hilbert space. Given a compact subset K of X and two continuous functions f:K, G:K X, we show that a necessary and sufficient condition for the existence of a convex function F∈ C1(X) such that F=f on K and ∇ F=G on K is that the 1-jet (f, G) satisfies (1) f(x)≥ f(y)+ G(y), x-y for all x, y∈ K, and (2) if x, y∈ K and f(x)= f(y)+ G(y), x-y then G(x)=G(y). We also solve a similar problem for K replaced with an arbitrary bounded subset of X, and for C1(X) replaced with the class C1,ub(X) of differentiable functions with uniformly continuous derivatives on bounded subsets of X.