Sampling by averages and average splines on Dirichlet spaces and on combinatorial graphs

Abstract

In the framework of a strictly local regular Dirichlet space X we introduce the subspaces PWω,\>\>ω>0, of Paley-Wiener functions of bandwidth ω. It is shown that every function in PWω,\>\>ω>0, is uniquely determined by its average values over a family of balls B(xj, ),\>xj∈ X, which form an admissible cover of X and whose radii are comparable to ω-1/2. The entire development heavily depends on some local and global Poincar\'e-type inequalities. In the second part of the paper we realize the same idea in the setting of a weighted combinatorial finite or infinite countable graph G. We have to treat the case of graphs separately since the Poincar\'e inequalities we are using on them are somewhat different from the Poincar\'e inequalities in the first part.