Algebraically grid-like graphs have large tree-width
The electronic journal of combinatorics, Tome 26 (2019) no. 1
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By the Grid Minor Theorem of Robertson and Seymour, every graph of sufficiently large tree-width contains a large grid as a minor. Tree-width may therefore be regarded as a measure of 'grid-likeness' of a graph. The grid contains a long cycle on the perimeter, which is the $\mathbb{F}_2$-sum of the rectangles inside. Moreover, the grid distorts the metric of the cycle only by a factor of two. We prove that every graph that resembles the grid in this algebraic sense has large tree-width: Let $k, p$ be integers, $\gamma$ a real number and $G$ a graph. Suppose that $G$ contains a cycle of length at least $2 \gamma p k$ which is the $\mathbb{F}_2$-sum of cycles of length at most $p$ and whose metric is distorted by a factor of at most $\gamma$. Then $G$ has tree-width at least $k$.
DOI :
10.37236/7691
Classification :
05C83, 05C12, 05C38
Affiliations des auteurs :
Daniel Weißauer 1
Daniel Weißauer. Algebraically grid-like graphs have large tree-width. The electronic journal of combinatorics, Tome 26 (2019) no. 1. doi: 10.37236/7691
@article{10_37236_7691,
author = {Daniel Wei{\ss}auer},
title = {Algebraically grid-like graphs have large tree-width},
journal = {The electronic journal of combinatorics},
year = {2019},
volume = {26},
number = {1},
doi = {10.37236/7691},
zbl = {1409.05193},
url = {http://geodesic.mathdoc.fr/articles/10.37236/7691/}
}
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