English

Message-Passing Algorithms and Homology

Mathematical Physics 2020-09-25 v1 Algebraic Topology math.MP Statistics Theory Statistics Theory

Abstract

This PhD thesis lays out algebraic and topological structures relevant for the study of probabilistic graphical models. Marginal estimation algorithms are introduced as diffusion equations of the form u˙=δφ\dot u = \delta \varphi. They generalise the traditional belief propagation (BP) algorithm, and provide an alternative for contrastive divergence (CD) or Markov chain Monte Carlo (MCMC) algorithms, typically involved in estimating a free energy functional and its gradient w.r.t. model parameters. We propose a new homological picture where parameters are a collections of local interaction potentials (uα)A0(u_\alpha) \in A_0, for α\alpha running over the factor nodes of a given region graph. The boundary operator δ\delta mapping heat fluxes (φαβ)A1(\varphi_{\alpha\beta}) \in A_1 to a subspace δA1A0\delta A_1 \subseteq A_0 is the discrete analog of a divergence. The total energy H=αuαH = \sum_\alpha u_\alpha defining the global probability p=eH/Zp = e^{-H} / Z is in one-to-one correspondence with a homology class [u]=u+δA1[u] = u + \delta A_1 of interaction potentials, so that total energy remains constant when uu evolves up to a boundary term δφ\delta \varphi. Stationary states of diffusion are shown to lie at the intersection of a homology class of potentials with a non-linear constraint surface enforcing consistency of the local marginals estimates. This picture allows us to precise and complete a proof on the correspondence between stationary states of BP and critical points of a local free energy functional (obtained by Bethe-Kikuchi approximations) and to extend the uniqueness result for acyclic graphs (i.e. trees) to a wider class of hypergraphs. In general, bifurcations of equilibria are related to the spectral singularities of a local diffusion operator, yielding new explicit examples of the degeneracy phenomenon. Work supervised by Pr. Daniel Bennequin

Keywords

Cite

@article{arxiv.2009.11631,
  title  = {Message-Passing Algorithms and Homology},
  author = {Olivier Peltre},
  journal= {arXiv preprint arXiv:2009.11631},
  year   = {2020}
}

Comments

106 pages

R2 v1 2026-06-23T18:45:56.315Z