A variational theory of convolution-type functionals

Abstract

We provide a general treatment of perturbations of a class of functionals modeled on convolution energies with integrable kernel which approximate the p-th norm of the gradient as the kernel is scaled by letting a small parameter tend to 0. We first provide the necessary functional-analytic tools to show coerciveness in Lp. The main result is a compactness and integral-representation theorem which shows that limits of convolution-type energies is a standard local integral functional with p-growth defined on a Sobolev space. This result is applied to obtain periodic homogenization results, to study applications to functionals defined on point-clouds, to stochastic homogenization and to the study of limits of the related gradient flows.