Tutte path

In graph theory, a Tutte path is a path $P$ within a graph $G$ such that every connected component that remains after removing the vertices of $P$ from $G$ is connected back to $P$ at a limited number of vertices.

The precise definition relies on the following terms:^[1]

$P$ -bridge: For a given path $P$ in a graph $G$ , a $P$ -bridge is either a single edge not in $P$ that connects two vertices of $P$ , or it is a connected component of the graph remaining after deleting the vertices of $P$ , along with all the edges that connect this component to $P$ .
Attachment point: The attachment points of a $P$ -bridge are the vertices of the path $P$ that are connected by an edge to a vertex within the $P$ -bridge.

A Tutte path then is a path $P$ in $G$ such that every $P$ -bridge that remains after removing the vertices of $P$ from $G$ has at most three points of attachment to the path $P$ . Furthermore, if a $P$ -bridge contains edges from the outer face of the graph (in the context of planar graphs), it is restricted to having at most two attachment points.^[2]

A key motivation for the study of Tutte paths is their close relationship to Hamiltonian paths and cycles, paths and cycles in a graph that visit every vertex exactly once. A Tutte path is a relaxation of this concept; it does not require that all vertices be on the path. However, the constraints on the bridges provide strong structural information about the graph which can then be used to find a Hamiltonian path or cycle, especially in planar graphs.

References

^ Tutte, W. T. (1956). "A theorem on planar graphs" (PDF). Transactions of the American Mathematical Society. 82: 99–116. doi:10.2307/1992980. JSTOR 1992980. MR 0081471.
^ Schmid, Andreas; Schmidt, Jens M. (2017). "Computing Tutte Paths". 34th International Symposium on Theoretical Aspects of Computer Science (STACS 2017). Leibniz International Proceedings in Informatics (LIPIcs). Vol. 66. pp. 57:1–57:14. arXiv:1707.05994.

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[1] Tutte, W. T. (1956). "A theorem on planar graphs" (PDF). Transactions of the American Mathematical Society. 82: 99–116. doi:10.2307/1992980. JSTOR 1992980. MR 0081471.

[2] Schmid, Andreas; Schmidt, Jens M. (2017). "Computing Tutte Paths". 34th International Symposium on Theoretical Aspects of Computer Science (STACS 2017). Leibniz International Proceedings in Informatics (LIPIcs). Vol. 66. pp. 57:1–57:14. arXiv:1707.05994.

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Tutte path

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References

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