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ali Asghar Talebi

ali Asghar Talebi

Academic rank: Associate Professor
ORCID:
Education: PhD.
ScopusId:
HIndex:
Faculty: Faculty of Mathematical Sciences
Address:
Phone: 09111523547

Research

Title
On the parameter of domination in chemical graphs
Type
Thesis
Keywords
Domination, power domination, silicate, phase measurement units, total domination number, connected domination number, bondage number.
Year
2023
Researchers Fatimah Almarayan(Student)، ali Asghar Talebi(Advisor)، Doost Ali Mojdeh(PrimaryAdvisor)

Abstract

The set � of the vertices of a graph � = (�, �) is called a dominating set, if each vertex � ∈ �\� is adjacent with a vertex in �. The cardinality of a dominating set in � with minimum number of vertices is called the domination number of � and it is denoted by �(�). The set � of the vertices of a graph � = (�, �) is called a total dominating set, if each vertex � ∈ � is adjacent with at least one vertex in �. In other words, � is a total dominating set, if (i) � is a dominating set, (ii) for each vertex � ∈ �, there exists another vertex �′ ∈ � adjacent to �. The cardinality of a total domination set in � with minimum number of vertices is called the total domination number of � and denoted by ��(�) A set � ⊆ � from � = (�, �) is called connected dominating set, if (i) D is a dominating set, (ii) the subgraph induced by � denoted by < � > is connected. The cardinality of the minimum connected dominating set is connected domination number and it is denoted by ��(�). The importance of dominating set is discussed in chemical structures. For example, if �� is a hexagonal chain of dimension � , �(��) is the dominating number and ��(��) is the independent dominating number, then, we show that the following equality holds: �(��) = ��(��) = � + ⌊�6⌋ + 1, Let � be a subset of vertices in the connected graph �(�, �). We say, the set �(�) is an observed set by � whenever it satisfies the following recurrence relations: (domination) �(�) ≔ � ∪ �(�), where �(�) consists the neighborhood of �. (propagation) While there is � ∈ �(�) such that � ∈ (�(�) − �(�)) ∩ �(�), set �(�) ≔ �(�) ∪ {�}.