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Start Over Author "Brewster R" Topic 05c69
3 results on '"Brewster R"'

1. The $i$-Graphs of Paths and Cycles

Author

Brewster, R. C., Mynhardt, C. M., and Teshima, L. E.

Subjects
Mathematics - Combinatorics, 05C69
Abstract

The independent domination number $i(G)$ of a graph $G$ is the minimum cardinality of a maximal independent set of $G$, also called an $i(G)$-set. The $i$-graph of $G$, denoted $\mathscr{I}(G)$, is the graph whose vertices correspond to the $i(G)$-sets, and where two $i(G)$-sets are adjacent if and only if they differ by two adjacent vertices. Although not all graphs are $i$-graph realizable, that is, given a target graph $H$, there does not necessarily exist a source graph $G$ such that $H \cong \mathscr{I}(G)$, all graphs have $i$-graphs. We determine the $i$-graphs of paths and cycles and, in the case of cycles, discuss the Hamiltonicity of these $i$-graphs., Comment: 19 pages, 11 figures

Published
2023

2. Reconfiguration of Minimum Independent Dominating Sets in Graphs

Author

Brewster, R. C., Mynhardt, C. M., and Teshima, L. E.

Subjects
Mathematics - Combinatorics, 05C69
Abstract

The independent domination number $i(G)$ of a graph $G$ is the minimum cardinality of a maximal independent set of $G$, also called an $i(G)$-set. The $i$-graph of $G$, denoted $\mathcal{I}(G)$, is the graph whose vertices correspond to the $i(G)$-sets, and where two $i(G)$-sets are adjacent if and only if they differ by two adjacent vertices. We show that not all graphs are $i$-graph realizable, that is, given a target graph $H$, there does not necessarily exist a source graph $G$ such that $H$ is isomorphic to $\mathcal{I}(G)$. Examples of such graphs include $K_{4}-e$ and $K_{2,3}$. We build a series of tools to show that known $i$-graphs can be used to construct new $i$-graphs and apply these results to build other classes of $i$-graphs, such as block graphs, hypercubes, forests, cacti, and unicyclic graphs., Comment: 22 pages, 9 figures

Published
2023

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