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$\alpha_i$-Metric Graphs: Hyperbolicity

Combinatorics 2026-04-14 v2 Discrete Mathematics Data Structures and Algorithms

Abstract

A graph is called αi\alpha_i-metric (iNi \in {\cal N}) if it satisfies the following αi\alpha_i-metric property for every vertices u,w,vu, w, v and xx: if a shortest path between uu and ww and a shortest path between xx and vv share a terminal edge vwvw, then d(u,x)d(u,v)+d(v,x)id(u,x) \ge d(u,v) + d(v,x) - i. The latter is a discrete relaxation of the property that in Euclidean spaces the union of two geodesics sharing a terminal segment must be also a geodesic. Recently in (Dragan & Ducoffe, WG'23) we initiated the study of the algorithmic applications of αi\alpha_i-metric graphs. Our results in this prior work were very similar to those established in (Chepoi et al., SoCG'08) and (Chepoi et al., COCOA'18) for graphs with bounded hyperbolicity. The latter is a heavily studied metric tree-likeness parameter first introduced by Gromov. In this paper, we clarify the relationship between hyperbolicity and the αi\alpha_i-metric property, proving that αi\alpha_i-metric graphs are f(i)f(i)-hyperbolic for some function ff linear in ii. We give different proofs of this result, using various equivalent definitions to graph hyperbolicity. By contrast, we give simple constructions of 11-hyperbolic graphs that are not αi\alpha_i-metric for any constant ii. Finally, in the special case of i=1i=1, we prove that α1\alpha_1-metric graphs are 11-hyperbolic, and the bound is sharp. By doing so, we can answer some questions left open in (Dragan & Ducoffe, WG'23).

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Cite

@article{arxiv.2404.14792,
  title  = {$\alpha_i$-Metric Graphs: Hyperbolicity},
  author = {Feodor F. Dragan and Guillaume Ducoffe},
  journal= {arXiv preprint arXiv:2404.14792},
  year   = {2026}
}

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R2 v1 2026-06-28T16:03:15.616Z