Domination parameters of prisms of graphs

Schurch, Mark.

10 April 2008

No description available.

Domination (Graph theory)

Disjunctive domination in graphs

02 July 2015

Ph.D. (Mathematics) / Please refer to full text to view abstract

Domination (Graph theory)

On the domination numbers of prisms of cycles

Lin, Ming-Hung

16 January 2008

Let $gamma(G)$ be the domination number of a graph $G$. For any permutation $pi$ of the vertex set of a graph $G$, the prism of $G$ with respect to $pi$ is the graph $pi G$ obtained from two copies $G_{1}$ and $G_{2}$ of $G$ by joining $uin V(G_{1})$ and $vin V(G_{2})$ iff $v=pi(u)$. We prove that $$gamma(pi C_{n})geq cases{frac{ n}{ 2}, &if $n = 4k ,$ cr leftlceilfrac{n+1}{2} ight ceil, &if $n eq 4k$,} mbox{and } gamma(pi C_{n}) leq leftlceil frac{2n-1}{3} ight ceil mbox{for all }pi.$$ We also find a permutation $pi_{t}$ such that $gamma(pi_{t} C_{n})=k$, where $k$ between the lower bound and the upper bound of $gamma(pi C_{n})$ in above. Finally, we prove that if $pi_{b}C_{n}$ is a bipartite graph, then $$gamma(pi_{b}C_{n})geq cases{frac{n}{2}, &if $n = 4k ,$cr leftlceilfrac{n+1}{2} ight ceil, &if $n = 4k+2$,} mbox{and } gamma(pi_{b}C_{n})leq leftlfloor frac{5n+2}{8} ight floor.$$

prism

cycle

domination number

The 'coffee order' in Costa Rica, 1870-1889 : Formation and consolidation of a structure of domination

Rodriguez, G.

January 1983

No description available.

320

Political domination

Two conjectures on 3-domination critical graphs

Moodley, Lohini

01 1900

For a graph G = (V (G), E (G)), a set S ~ V (G) dominates G if each vertex in V (G) \S is adjacent to a vertex in S. The domination number I (G) (independent domination number i (G)) of G is the minimum cardinality amongst its dominating sets (independent dominating sets). G is k-edge-domination-critical, abbreviated k-1- critical, if the domination number k decreases whenever an edge is added. Further, G is hamiltonian if it has a cycle that passes through each of its vertices. This dissertation assimilates research generated by two conjectures: Conjecture I. Every 3-1-critical graph with minimum degree at least two is hamiltonian. Conjecture 2. If G is k-1-critical, then I ( G) = i ( G). The recent proof of Conjecture I is consolidated and presented accessibly. Conjecture 2 remains open for k = 3 and has been disproved for k :::>: 4. The progress is detailed and proofs of new results are presented. / Mathematical Science / M. Sc. (Mathematics)

Domination

Independent domination

Hamiltonicity

Domination-critical graphs

511.5

Graphic methods

Domination (Graph theory)

Semitotal domination in graphs

Marcon, Alister Justin

02 July 2015

Ph.D. (Mathematics) / Please refer to full text to view abstract

Domination (Graph theory)

Paired-domination in graphs

McCoy, John Patrick

24 July 2013

D.Phil. (Mathematics) / Domination and its variants are now well studied in graph theory. One of these variants, paired-domination, requires that the subgraph induced by the dominating set contains a perfect matching. In this thesis, we further investigate the concept of paired-domination. Chapters 2, 3, 4, and 5 of this thesis have been published in [17], [41], [42], and [43], respectively, while Chapter 6 is under submission; see [44]. In Chapter 1, we introduce the domination parameters we use, as well as the necessary graph theory terminology and notation. We combine the de nition of a paired-dominating set and a locating set to de ne three new sets: locating-paired- dominating sets, di erentiating-paired-dominating sets, and metric-locating-paired- dominating sets. We use these sets in Chapters 3 and 4. In Chapter 2, we investigate the relationship between the upper paired-domination and upper total domination numbers of a graph. In Chapter 3, we study the properties of the three kinds of locating paired-dominating sets we de ned, and in Chapter 4 we give a constructive characterisation of those trees which do not have a di erentiating- paired-dominating set. In Chapter 5, we study the problem of characterising planar graphs with diameter two and paired-domination number four. Lastly, in Chap- ter 6, we establish an upper bound on the size of a graph of given order and paired- domination number and we characterise the extremal graphs that achieve equality in the established bound.

Paired-domination

Graph theory

Bounds on the Global Domination Number

Desormeaux, Wyatt J., Gibson, Philip E., Haynes, Teresa W.

01 January 2015

A set S of vertices in a graph G is a global dominating set of G if S simultaneously dominates both G and its complement Ḡ. The minimum cardinality of a global dominating set of G is the global domination number of G. We determine bounds on the global domination number of a graph and relationships between it and other domination related parameters.

connected domination

global domination

global domination number

total domination

Mathematics and Statistics

Total Domination Supercritical Graphs With Respect to Relative Complements

Haynes, Teresa W., Henning, Michael A., Van Der Merwe, Lucas C.

06 December 2002

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.

Domination

Relative complement

Total domination

Total domination edge critical graphs

Total domination supercritical graphs

Mathematics and Statistics

Graphs with Large Italian Domination Number

Haynes, Teresa W., Henning, Michael A., Volkmann, Lutz

01 November 2020

An Italian dominating function on a graph G with vertex set V(G) is a function f: V(G) → { 0 , 1 , 2 } having the property that for every vertex v with f(v) = 0 , at least two neighbors of v are assigned 1 under f or at least one neighbor of v is assigned 2 under f. The weight of an Italian dominating function f is the sum of the values assigned to all the vertices under f. The Italian domination number of G, denoted by γI(G) , is the minimum weight of an Italian dominating of G. It is known that if G is a connected graph of order n≥ 3 , then γI(G)≤34n. Further, if G has minimum degree at least 2, then γI(G)≤23n. In this paper, we characterize the connected graphs achieving equality in these bounds. In addition, we prove Nordhaus–Gaddum inequalities for the Italian domination number.

05C69

domination

Italian domination

Roman domination

Roman { 2 } -domination

Mathematics and Statistics