Drawing Shortest Paths in Geodetic Graphs

Sabine Cornelsen; Maximilian Pfister; Henry Förster; Martin Gronemann; Michael Hoffmann; Stephen Kobourov; Thomas Schneck

doi:10.7155/jgaa.00598

Drawing Shortest Paths in Geodetic Graphs

Sabine Cornelsen, Maximilian Pfister, Henry Förster, Martin Gronemann, Michael Hoffmann, Stephen Kobourov, Thomas Schneck

Research output: Contribution to journal › Article › peer-review

Abstract

Motivated by the fact that in a space where shortest paths are unique, no two shortest paths meet twice, we study a question posed by Greg Bodwin: Given a geodetic graph G, i.e., an unweighted graph in which the shortest path between any pair of vertices is unique, is there a philogeodetic drawing of G, i.e., a drawing of G in which the curves of any two shortest paths meet at most once? We answer this question in the negative by showing the existence of geodetic graphs that require some pair of shortest paths to cross at least four times. The bound on the number of crossings is tight for the class of graphs we construct. Furthermore, we exhibit geodetic graphs of diameter two that do not admit a philogeodetic drawing. On the positive side we show that geodetic graphs admit a philogeodetic drawing if both the diameter and the density are very low.

Original language	English (US)
Pages (from-to)	353-361
Number of pages	9
Journal	Journal of Graph Algorithms and Applications
Volume	26
Issue number	3
DOIs	https://doi.org/10.7155/jgaa.00598
State	Published - 2022
Externally published	Yes

ASJC Scopus subject areas

Theoretical Computer Science
General Computer Science
Computer Science Applications
Geometry and Topology
Computational Theory and Mathematics

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10.7155/jgaa.00598

Cite this

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title = "Drawing Shortest Paths in Geodetic Graphs",

abstract = "Motivated by the fact that in a space where shortest paths are unique, no two shortest paths meet twice, we study a question posed by Greg Bodwin: Given a geodetic graph G, i.e., an unweighted graph in which the shortest path between any pair of vertices is unique, is there a philogeodetic drawing of G, i.e., a drawing of G in which the curves of any two shortest paths meet at most once? We answer this question in the negative by showing the existence of geodetic graphs that require some pair of shortest paths to cross at least four times. The bound on the number of crossings is tight for the class of graphs we construct. Furthermore, we exhibit geodetic graphs of diameter two that do not admit a philogeodetic drawing. On the positive side we show that geodetic graphs admit a philogeodetic drawing if both the diameter and the density are very low.",

author = "Sabine Cornelsen and Maximilian Pfister and Henry F{\"o}rster and Martin Gronemann and Michael Hoffmann and Stephen Kobourov and Thomas Schneck",

year = "2022",

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T1 - Drawing Shortest Paths in Geodetic Graphs

AU - Cornelsen, Sabine

AU - Pfister, Maximilian

AU - Förster, Henry

AU - Gronemann, Martin

AU - Hoffmann, Michael

AU - Kobourov, Stephen

AU - Schneck, Thomas

PY - 2022

Y1 - 2022

N2 - Motivated by the fact that in a space where shortest paths are unique, no two shortest paths meet twice, we study a question posed by Greg Bodwin: Given a geodetic graph G, i.e., an unweighted graph in which the shortest path between any pair of vertices is unique, is there a philogeodetic drawing of G, i.e., a drawing of G in which the curves of any two shortest paths meet at most once? We answer this question in the negative by showing the existence of geodetic graphs that require some pair of shortest paths to cross at least four times. The bound on the number of crossings is tight for the class of graphs we construct. Furthermore, we exhibit geodetic graphs of diameter two that do not admit a philogeodetic drawing. On the positive side we show that geodetic graphs admit a philogeodetic drawing if both the diameter and the density are very low.

AB - Motivated by the fact that in a space where shortest paths are unique, no two shortest paths meet twice, we study a question posed by Greg Bodwin: Given a geodetic graph G, i.e., an unweighted graph in which the shortest path between any pair of vertices is unique, is there a philogeodetic drawing of G, i.e., a drawing of G in which the curves of any two shortest paths meet at most once? We answer this question in the negative by showing the existence of geodetic graphs that require some pair of shortest paths to cross at least four times. The bound on the number of crossings is tight for the class of graphs we construct. Furthermore, we exhibit geodetic graphs of diameter two that do not admit a philogeodetic drawing. On the positive side we show that geodetic graphs admit a philogeodetic drawing if both the diameter and the density are very low.

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Drawing Shortest Paths in Geodetic Graphs

Abstract

ASJC Scopus subject areas

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