A Dichotomy for 1-Planarity with Restricted Crossing Types Parameterized by Treewidth

November 18, 2025 Β· Declared Dead Β· πŸ› International Symposium on Algorithms and Computation

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Authors Sergio Cabello, Alexander Dobler, GaΕ‘per FijavΕΎ, Thekla Hamm, Mirko H. Wagner arXiv ID 2511.14975 Category cs.DS: Data Structures & Algorithms Cross-listed cs.CG, math.CO Citations 1 Venue International Symposium on Algorithms and Computation Last Checked 4 months ago
Abstract
A drawing of a graph is 1-planar if each edge participates in at most one crossing and adjacent edges do not cross. Up to symmetry, each crossing in a 1-planar drawing belongs to one out of six possible crossing types, where a type characterizes the subgraph induced by the four vertices of the crossing edges. Each of the 63 possible nonempty subsets $\mathcal{S}$ of crossing types gives a recognition problem: does a given graph admit an $\mathcal{S}$-restricted drawing, that is, a 1-planar drawing where the crossing type of each crossing is in $\mathcal{S}$? We show that there is a set $\mathcal{S}_{\rm bad}$ with three crossing types and the following properties: If $\mathcal{S}$ contains no crossing type from $\mathcal{S}_{\rm bad}$, then the recognition of graphs that admit an $\mathcal{S}$-restricted drawing is fixed-parameter tractable with respect to the treewidth of the input graph. If $\mathcal{S}$ contains any crossing type from $\mathcal{S}_{\rm bad}$, then it is NP-hard to decide whether a graph has an $\mathcal{S}$-restricted drawing, even when considering graphs of constant pathwidth. We also extend this characterization of crossing types to 1-planar straight-line drawings and show the same complexity behaviour parameterized by treewidth.
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