Vietoris--Rips Shadow for Euclidean Graph Reconstruction

Abstract

The shadow of an abstract simplicial complex K with vertices in RN is a subset of RN defined as the union of the convex hulls of simplices of K. The Vietoris--Rips complex of a metric space (S,d) at scale β is an abstract simplicial complex whose each k-simplex corresponds to (k+1) points of S within diameter β. In case S⊂ R2 and d(a,b)=\|a-b\| the standard Euclidean metric, the natural shadow projection of the Vietoris--Rips complex is already proved by Chambers et al. to induce isomorphisms on π0 and π1. We extend the result beyond the standard Euclidean distance on S⊂ RN to a family of path-based metrics, dS. From the pairwise Euclidean distances of points in S, we introduce a family (parametrized by ) of path-based Vietoris--Rips complexes Rβ(S) for a scale β>0. If S⊂R2 is Hausdorff-close to a planar Euclidean graph G, we provide quantitative bounds on scales β, for the shadow projection map of the Vietoris--Rips complex of (S,dS) at scale β to induce π1-isomorphism. This paper first studies the homotopy-type recovery of G⊂ RN using the abstract Vietoris--Rips complex of a Hausdorff-close sample S under the dS metric. Then, our result on the π1-isomorphism induced by the shadow projection lends itself to providing also a geometrically close embedding for the reconstruction. Based on the length of the shortest loop and large-scale distortion of the embedding of G, we quantify the choice of a suitable sample density and a scale β at which the shadow of Rβ(S) is homotopy-equivalent and Hausdorff-close to G.