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On a Conjecture of Murty and Simon on Diameter 2-Critical GraphsHaynes, Teresa W., Henning, Michael A., Van Der Merwe, Lucas C., Yeo, Anders 06 September 2011 (has links)
A graph G is diameter 2-critical if its diameter is two, and the deletion of any edge increases the diameter. Murty and Simon conjectured that the number of edges in a diameter 2-critical graph of order n is at most n2/4 and that the extremal graphs are complete bipartite graphs with equal size partite sets. We use an association with total domination to prove the conjecture for the graphs whose complements have diameter three.
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On the Existence of K-Partite or K<sup>P</sup>-Free Total Domination Edge-Critical GraphsHaynes, Teresa W., Henning, Michael A., Van Der Merwe, Lucas C., Yeo, Anders 06 July 2011 (has links)
A set S of vertices in a graph G is a total dominating set of G if every vertex of G is adjacent to some vertex in S. The minimum cardinality of a total dominating set of G is the total domination number γt(G). The graph G is 3t-critical if γt(G)=3 and γt(G+e)=2 for every edge e in the complement of G. We show that no bipartite graph is 3t-critical. The tripartite 3 t-critical graphs are characterized. For every k<3, we prove that there are only a finite number of 3t-critical k-partite graphs. We show that the 5-cycle is the only 3t-critical K3-free graph and that there are only a finite number of 3t-critical K4-free graphs.
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A Proof of a Conjecture on Diameter 2-Critical Graphs Whose Complements Are Claw-FreeHaynes, Teresa W., Henning, Michael A., Yeo, Anders 01 August 2011 (has links)
A graph G is diameter 2-critical if its diameter is 2, and the deletion of any edge increases the diameter. Murty and Simon conjectured that the number of edges in a diameter 2-critical graph of order n is at most n24 and that the extremal graphs are complete bipartite graphs with equal size partite sets. We use an important association with total domination to prove the conjecture for the graphs whose complements are claw-free.
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Total Domination Critical and Stable Graphs Upon Edge RemovalDesormeaux, Wyatt J., Haynes, Teresa W., Henning, Michael A. 06 August 2010 (has links)
A set S of vertices in a graph G is a total dominating set of G if every vertex of G is adjacent to some vertex in S. The minimum cardinality of a total dominating set of G is the total domination number of G. A graph is total domination edge critical if the removal of any arbitrary edge increases the total domination number. On the other hand, a graph is total domination edge stable if the removal of any arbitrary edge has no effect on the total domination number. In this paper, we characterize total domination edge critical graphs. We also investigate various properties of total domination edge stable graphs.
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Progress on the Murty–Simon Conjecture on Diameter-2 Critical Graphs: A SurveyHaynes, Teresa W., Henning, Michael A., van der Merwe, Lucas C., Yeo, Anders 01 October 2015 (has links)
A graph $$G$$G is diameter 2-critical if its diameter is two and the deletion of any edge increases the diameter. Murty and Simon conjectured that the number of edges in a diameter-2-critical graph G of order n is at most ⌊n2/4⌋ and that the extremal graphs are the complete bipartite graphs K⌊n/2⌋,⌈n/2⌉. We survey the progress made to date on this conjecture, concentrating mainly on recent results developed from associating the conjecture to an equivalent one involving total domination.
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Total Domination Edge Critical Graphs with Total Domination Number Three and Many Dominating PairsBalbuena, Camino, Hansberg, Adriana, Haynes, Teresa W., Henning, Michael A. 24 September 2015 (has links)
A graph G is diameter-2-critical if its diameter is two and the deletion of any edge increases the diameter. Murty and Simon conjectured that the number of edges in a diameter-2-critical graph G of order n is at most ⌊n2/4⌋ and that the extremal graphs are the complete bipartite graphs K⌊n/2⌋,⌈n/2⌉. A graph is t-edge-critical, abbreviated 3tEC, if its total domination number is 3 and the addition of any edge decreases the total domination number. It is known that proving the Murty–Simon Conjecture is equivalent to proving that the number of edges in a 3tEC graph of order n is greater than ⌈n(n-2)/4⌉. We study a family F of 3tEC graphs of diameter 2 for which every pair of nonadjacent vertices dominates the graph. We show that the graphs in F are precisely the bull-free 3tEC graphs and that the number of edges in such graphs is at least ⌊(n2-4)/4⌋, proving the conjecture for this family. We characterize the extremal graphs, and conjecture that this improved bound is in fact a lower bound for all 3tEC graphs of diameter 2. Finally we slightly relax the requirement in the definition of F—instead of requiring that all pairs of nonadjacent vertices dominate to requiring that only most of these pairs dominate—and prove the Murty–Simon equivalent conjecture for these 3tEC graphs.
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On a Conjecture of Murty and Simon on Diameter Two Critical Graphs IIHaynes, Teresa W., Henning, Michael A., Yeo, Anders 28 January 2012 (has links)
A graph G is diameter 2-critical if its diameter is two and the deletion of any edge increases the diameter. Murty and Simon conjectured that the number of edges in a diameter 2-critical graph of order n is at most n2/4 and that the extremal graphs are complete bipartite graphs with equal size partite sets. We use an important association with total domination to prove the conjecture for the graphs whose complements have vertex connectivity k for k∈1,2,3.
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Total Domination Supercritical Graphs With Respect to Relative ComplementsHaynes, Teresa W., Henning, Michael A., Van Der Merwe, Lucas C. 06 December 2002 (has links)
A set S of vertices of a graph G is a total dominating set if every vertex of V(G) is adjacent to some vertex in S. The total domination number γt(G) is the minimum cardinality of a total dominating set of G. Let G be a connected spanning subgraph of Ks,s, and let H be the complement of G relative to Ks,s; that is, Ks,s, = G ⊕ H is a factorization of Ks,s. The graph G is k-supercritical relative to Ks,s, if γt(G) = k and γ1(G + e) = k - 2 for all e ∈ E(H). Properties of k-supercritical graphs are presented, and k-supercritical graphs are characterized for small k.
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