English

Permanental Graphs

Statistics Theory 2020-09-24 v1 Statistics Theory

Abstract

The two components for infinite exchangeability of a sequence of distributions (Pn)(P_n) are (i) consistency, and (ii) finite exchangeability for each nn. A consequence of the Aldous-Hoover theorem is that any node-exchangeable, subselection-consistent sequence of distributions that describes a randomly evolving network yields a sequence of random graphs whose expected number of edges grows quadratically in the number of nodes. In this note, another notion of consistency is considered, namely, delete-and-repair consistency; it is motivated by the sense in which infinitely exchangeable permutations defined by the Chinese restaurant process (CRP) are consistent. A goal is to exploit delete-and-repair consistency to obtain a nontrivial sequence of distributions on graphs (Pn)(P_n) that is sparse, exchangeable, and consistent with respect to delete-and-repair, a well known example being the Ewens permutations \cite{tavare}. A generalization of the CRP(α)(\alpha) as a distribution on a directed graph using the α\alpha-weighted permanent is presented along with the corresponding normalization constant and degree distribution; it is dubbed the Permanental Graph Model (PGM). A negative result is obtained: no setting of parameters in the PGM allows for a consistent sequence (Pn)(P_n) in the sense of either subselection or delete-and-repair.

Keywords

Cite

@article{arxiv.2009.10902,
  title  = {Permanental Graphs},
  author = {Daniel Xiang and Peter McCullagh},
  journal= {arXiv preprint arXiv:2009.10902},
  year   = {2020}
}
R2 v1 2026-06-23T18:44:04.250Z