Geodesic
A splitter theorem for 3-connected 2-polymatroids
James Oxley1 ; Charles Semple2 ; Geoff Whittle3
1Louisiana State University
2University of Canterbury
3Victoria University
The electronic journal of combinatorics, Tome 26 (2019) no. 2
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Seymour's Splitter Theorem is a basic inductive tool for dealing with $3$-connected matroids. This paper proves a generalization of that theorem for the class of $2$-polymatroids. Such structures include matroids, and they model both sets of points and lines in a projective space and sets of edges in a graph. A series compression in such a structure is an analogue of contracting an edge of a graph that is in a series pair. A $2$-polymatroid $N$ is an s-minor of a $2$-polymatroid $M$ if $N$ can be obtained from $M$ by a sequence of contractions, series compressions, and dual-contractions, where the last are modified deletions. The main result proves that if $M$ and $N$ are $3$-connected $2$-polymatroids such that $N$ is an s-minor of $M$, then $M$ has a $3$-connected s-minor $M'$ that has an s-minor isomorphic to $N$ and has $|E(M)| - 1$ elements unless $M$ is a whirl or the cycle matroid of a wheel. In the exceptional case, such an $M'$ can be found with $|E(M)| - 2$ elements.
DOI : 10.37236/7308
Classification : 05B35, 52B40
Mots-clés : Seymour's splitter theorem

James Oxley  1   ; Charles Semple  2   ; Geoff Whittle  3

1 Louisiana State University
2 University of Canterbury
3 Victoria University 
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James Oxley; Charles Semple; Geoff Whittle. A splitter theorem for 3-connected 2-polymatroids. The electronic journal of combinatorics, Tome 26 (2019) no. 2. doi: 10.37236/7308

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