Navigating Posets with Few Maps
Abstract
We study two new parameters for finite posets motivated by the problem of efficiently determining the set of successors of a given element. A plane map of a poset is an injective mapping of into the Cartesian plane . Given two different points and in the plane, we say that dominates if coordinatewise. We say that an element of is tight in a plane map if the following holds: in if and only if dominates . Note that, by definition, every 2-dimensional poset admits a map such that every element of the poset is tight. For any poset , we define the mapability of , , to be the maximum number of elements that are tight in a single map, and we define the atlas thickness of , , to be the size of the smallest collection of maps such that every element is tight in at least one map of the collection. We relate these parameters to the classical notions of dimension and width: for every poset , we show that . On the other hand, there exists a sequence of posets such that the atlas thickness of is doubly exponential in the dimension of . On the computational side, we prove that it is NP-complete, for a given poset , to compute the mapability of and to decide whether . In contrast to the latter, we show that computing the mapability of a poset is fixed-parameter tractable with respect to the natural parameter.
Cite
@article{arxiv.2605.20877,
title = {Navigating Posets with Few Maps},
author = {Stefan Felsner and Jędrzej Hodor and Giacomo Ortali and Alexander Wolff},
journal= {arXiv preprint arXiv:2605.20877},
year = {2026}
}
Comments
12 pages