Bounds on Weak Roman and 2-Rainbow Domination Numbers

Chellali, Mustapha, Haynes, Teresa W., Hedetniemi, Stephen T.

01 January 2014

We mainly study two related dominating functions, namely, the weak Roman and 2-rainbow dominating functions. We show that for all graphs, the weak Roman domination number is bounded above by the 2-rainbow domination number. We present bounds on the weak Roman domination number and the secure domination number in terms of the total domination number for specific families of graphs, and we show that the 2-rainbow domination number is bounded below by the total domination number for trees and for a subfamily of cactus graphs.

2-domination

2-rainbow domination

Roman domination

secure domination

total domination

weak Roman domination

Mathematics and Statistics

On a Conjecture of Murty and Simon on Diameter Two Critical Graphs II

Haynes, Teresa W., Henning, Michael A., Yeo, Anders

28 January 2012

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.

γ - critical t

diameter 2-critical

total domination edge critical

Mathematics and Statistics

A Characterization of Diameter-2-Critical Graphs With No Antihole of Length Four

Haynes, Teresa W., Henning, Michael A.

01 June 2012

A graph G is diameter-2-critical if its diameter is two and the deletion of any edge increases the diameter. In this paper we characterize the diameter-2-critical graphs with no antihole of length four, that is, the diameter-2-critical graphs whose complements have no induced 4-cycle. Murty and Simon conjectured that the number of edges in a diameter-2-critical graph of order n is at most n 2/4 and that the extremal graphs are complete bipartite graphs with equal size partite sets. As a consequence of our characterization, we prove the Murty-Simon Conjecture for graphs with no antihole of length four.

antihole

diameter critical

diameter-2-critical

total domination critical

Mathematics and Statistics

Double Domination Edge Critical Graphs

Haynes, Teresa W., Thacker, Derrick

01 March 2009

In a graph G = (V,E), a subset S ⊆ V is a double dominating set if every vertex in V is dominated at least twice. The minimum cardinality of a double dominating set of G is the double domination number. A graph G is double domination edge critical if for any edge uv ε E(Ḡ), the double domination number of G + uv is less than the double domination number of G. We investigate double domination edge critical graphs and characterize the trees and cycles having this property. Then we concentrate on double domination edge critical graphs having small double domination numbers. In particular, we characterize the ones with double domination number three and subfamilies of those with double domination number four.

domination

domination edge critical

double domination

double domination edge critical

total domination

Mathematics and Statistics

Domination Parameters of a Graph and Its Complement

Desormeaux, Wyatt J., Haynes, Teresa W., Henning, Michael A.

01 January 2018

A dominating set in a graph G is a set S of vertices such that every vertex in V (G) \ S is adjacent to at least one vertex in S, and the domination number of G is the minimum cardinality of a dominating set of G. Placing constraints on a dominating set yields different domination parameters, including total, connected, restrained, and clique domination numbers. In this paper, we study relationships among domination parameters of a graph and its complement.

clique domination

complement

connected domination

domination

restrained domination

total domination

Mathematics and Statistics

Partitioning the Vertices of a Cubic Graph Into Two Total Dominating Sets

Desormeaux, Wyatt J., Haynes, Teresa W., Henning, Michael A.

31 May 2017

A total dominating set in a graph G is a set S of vertices of G such that every vertex in G is adjacent to a vertex of S. We study cubic graphs whose vertex set can be partitioned into two total dominating sets. There are infinitely many examples of connected cubic graphs that do not have such a vertex partition. In this paper, we show that the class of claw-free cubic graphs has such a partition. For an integer k at least 3, a graph is k-chordal if it does not have an induced cycle of length more than k. Chordal graphs coincide with 3-chordal graphs. We observe that for k≥6, not every graph in the class of k-chordal, connected, cubic graphs has two vertex disjoint total dominating sets. We prove that the vertex set of every 5-chordal, connected, cubic graph can be partitioned into two total dominating sets. As a consequence of this result, we observe that this property also holds for a connected, cubic graph that is chordal or 4-chordal. We also prove that cubic graphs containing a diamond as a subgraph can be partitioned into two total dominating sets.

5-chordal graphs

claw-free

total domination

vertex partitions

Mathematics and Statistics

Total Domination Cover Rubbling

Beeler, Robert A., Haynes, Teresa W., Henning, Michael A., Keaton, Rodney

15 September 2020

Let G be a connected simple graph with vertex set V and a distribution of pebbles on the vertices of V. The total domination cover rubbling number of G is the minimum number of pebbles, so that no matter how they are distributed, it is possible that after a sequence of pebbling and rubbling moves, the set of vertices with pebbles is a total dominating set of G. We investigate total domination cover rubbling in graphs and determine bounds on the total domination cover rubbling number.

domination cover rubbling

pebbling

rubbling

total domination cover rubbling

Mathematics and Statistics

Domination Numbers of Semi-strong Products of Graphs

Cheney, Stephen R

01 January 2015

This thesis examines the domination number of the semi-strong product of two graphs G and H where both G and H are simple and connected graphs. The product has an edge set that is the union of the edge set of the direct product of G and H together with the cardinality of V(H), copies of G. Unlike the other more common products (Cartesian, direct and strong), the semi-strong product is neither commutative nor associative. The semi-strong product is not supermultiplicative, so it does not satisfy a Vizing like conjecture. It is also not submultiplicative so it shares these two properties with the direct product. After giving the basic definitions related with graphs, domination in graphs and basic properties of the semi-strong product, this paper includes a general upper bound for the domination of the semi-strong product of any two graphs G and H as less than or equal to twice the domination numbers of each graph individually. Similar general results for the semi-strong product perfect-paired domination numbers of any two graphs G and H, as well as semi-strong products of some specific types of cycle graphs are also addressed.

Graph theory

graph products

domination

domination number

total domination strong products

semi-strong products

Applied Mathematics

Discrete Mathematics and Combinatorics

Mathematics

Double Domination Edge Critical Graphs.

Thacker, Derrick Wayne

06 May 2006

In a graph G=(V,E), a subset S ⊆ V is a double dominating set if every vertex in V is dominated at least twice. The minimum cardinality of a double dominating set of G is the double domination number. A graph G is double domination edge critical if for any edge uv ∈ E(G̅), the double domination number of G+uv is less than the double domination number of G. We investigate properties of double domination edge critical graphs. In particular, we characterize the double domination edge critical trees and cycles, graphs with double domination numbers of 3, and graphs with double domination numbers of 4 with maximum diameter.

domination

total domination

double domination

domination edge critical

double domination edge critical

Discrete Mathematics and Combinatorics

Mathematics

Physical Sciences and Mathematics

Ratios of Some Domination Parameters in Trees

Chellali, Mustapha, Favaron, Odile, Haynes, Teresa W., Raber, Dalila

06 September 2008

We determine upper bounds on the ratios of several domination parameters in trees.

domination

double domination

k-domination

k-independence

multiple domination

p-Star-forming

paired-domination

total domination

Mathematics and Statistics