Integration and measures on the space of countable labelled graphs

Abstract

In this paper we develop a rigorous foundation for the study of integration and measures on the space G(V) of all graphs defined on a countable labelled vertex set V. We first study several interrelated σ-algebras and a large family of probability measures on graph space. We then focus on a "dyadic" Hamming distance function \| · \|,2, which was very useful in the study of differentiation on G(V). The function \| · \|,2 is shown to be a Haar measure-preserving bijection from the subset of infinite graphs to the circle (with the Haar/Lebesgue measure), thereby naturally identifying the two spaces. As a consequence, we establish a "change of variables" formula that enables the transfer of the Riemann-Lebesgue theory on R to graph space G(V). This also complements previous work in which a theory of Newton-Leibnitz differentiation was transferred from the real line to G(V) for countable V. Finally, we identify the Pontryagin dual of G(V), and characterize the positive definite functions on G(V).