1. Colourability and word-representability of near-triangulations
- Author
-
Marc Elliot Glen
- Subjects
Polyomino ,Generalization ,010102 general mathematics ,Regular polygon ,Triangulation (social science) ,0102 computer and information sciences ,01 natural sciences ,Domino ,Combinatorics ,010201 computation theory & mathematics ,If and only if ,FOS: Mathematics ,Mathematics - Combinatorics ,Chromatic scale ,Combinatorics (math.CO) ,0101 mathematics ,Word (group theory) ,Mathematics - Abstract
A graph $G = (V,E)$ is word-representable if there is a word $w$ over the alphabet $V$ such that $x$ and $y$ alternate in $w$ if and only if the edge $(x, y)$ is in $G$. It is known [6] that all $3$-colourable graphs are word-representable, while among those with a higher chromatic number some are word-representable while others are not. There has been some recent research on the word-representability of polyomino triangulations. Akrobotu et al.[1] showed that a triangulation of a convex polyomino is word-representable if and only if it is $3$-colourable; and Glen and Kitaev[5] extended this result to the case of a rectangular polyomino triangulation when a single domino tile is allowed. It was shown in [4] that a near-triangulation is $3$-colourable if and only if it is internally even. This paper provides a much shorter and more elegant proof of this fact, and also shows that near-triangulations are in fact a generalization of the polyomino triangulations studied in [1] and [5], and so we generalize the results of these two papers, and solve all open problems stated in [5]., Comment: 7 pages; submitting to PUMA
- Published
- 2016
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