English

Echeloned Spaces

Logic 2025-05-28 v2 Combinatorics

Abstract

We introduce the notion of echeloned spaces - an order-theoretic abstraction of metric spaces. The first step is to characterize metrizable echeloned spaces. It turns out that morphisms between metrizable echeloned spaces are uniformly continuous or have a uniformly discrete image. In particular, every automorphism of a metrizable echeloned space is uniformly continuous, and for every metric space with midpoints the automorphisms of the induced echeloned space are precisely the dilations. Next we focus on finite echeloned spaces. They form a Fraisse class and we describe its Fraisse-limit both as the echeloned space induced by a certain homogeneous metric space and as the result of a random construction. Building on this we show that the class of finite ordered echeloned spaces is Ramsey. The proof of this result combines a combinatorial argument by Nesetril and Hubicka with a topological-dynamical point of view due to Kechris, Pestov, and Todorcevic. Finally, using the method of Katetov functors due to Kubis and Masulovic, we prove that the full symmetric group on a countable set topologically embeds into the automorphism group of the countable universal homogeneous echeloned space.

Keywords

Cite

@article{arxiv.2312.11141,
  title  = {Echeloned Spaces},
  author = {Maxime Gheysens and Bojana Pavlica and Christian Pech and Maja Pech and Friedrich Martin Schneider},
  journal= {arXiv preprint arXiv:2312.11141},
  year   = {2025}
}

Comments

35 pages

R2 v1 2026-06-28T13:54:32.630Z