Positive matching decompositions of graphs

Positive matching decompositions of graphs

A matching $M$ in a graph $\Gamma$ is positive if $\Gamma$ has a vertex-labeling such that $M$ coincides with the set of edges with positive weights. A positive matching decomposition (pmd) of $\Gamma$ is an edge-partition $M_1,\ldots,M_p$ of $\Gamma$ such that $M_i$ is a positive matching in $\Gamm...

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Hauptverfasser: Ghouchan, Mohammad Farrokhi Derakhshandeh, Gharakhloo, Shekoofeh, Pour, Ali Akbar Yazdan
Format: Artikel
Sprache:eng
Schlagworte:
Mathematics - Combinatorics
Mathematics - Commutative Algebra
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Zusammenfassung:A matching $M$ in a graph $\Gamma$ is positive if $\Gamma$ has a vertex-labeling such that $M$ coincides with the set of edges with positive weights. A positive matching decomposition (pmd) of $\Gamma$ is an edge-partition $M_1,\ldots,M_p$ of $\Gamma$ such that $M_i$ is a positive matching in $\Gamma-M_1\cup\cdots\cup M_{i-1}$, for $i=1,\ldots,p$. The pmds of graphs are used to study algebraic properties of the Lov\'{a}sz-Saks-Schrijver ideals arising from orthogonal representations of graphs. We give a characterization of pmds of graphs in terms of alternating closed walks and apply it to study pmds of various classes of graphs including complete multipartite graphs, (regular) bipartite graphs, cacti, generalized Petersen graphs, etc. We further show that computation of pmds of a graph can be reduced to that of its maximum pendant-free subgraph.
DOI:10.48550/arxiv.2110.12168