Nearly perfect sets in products of graphs

Nearly perfect sets in products of graphs

The study of nearly perfect sets in graphs was initiated in [Dunbar J. E., Harris F. C., Hedetniemi S. M., Hedetniemi S. T., McRae A. A., Laskar R. C.: Nearly perfect sets in graphs. Discrete Mathematics 138 (1995), 229-246]. Let \(S\subseteq V(G)\). We say that \(S\) is a nearly perfect set (or is...

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Bibliographic Details
Main Authors: Maria Kwaśnik, Monika Perl
Format: Article
Language:English
Published: AGH Univeristy of Science and Technology Press 2004-01-01
Series:Opuscula Mathematica
Subjects:
dominating sets
product of graphs
Online Access:http://www.opuscula.agh.edu.pl/vol24/2/art/opuscula_math_2415.pdf
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spelling doaj-b22ec61823bb49e9993871d33631f0c32020-11-24T21:34:35ZengAGH Univeristy of Science and Technology PressOpuscula Mathematica1232-92742004-01-012421771802415Nearly perfect sets in products of graphsMaria Kwaśnik0Monika Perl1Technical University of Szczecin, Institute of Mathematics, al. Piastów 48/49, 70-310 Szczecin, PolandTechnical University of Szczecin, Institute of Mathematics, al. Piastów 48/49, 70-310 Szczecin, PolandThe study of nearly perfect sets in graphs was initiated in [Dunbar J. E., Harris F. C., Hedetniemi S. M., Hedetniemi S. T., McRae A. A., Laskar R. C.: Nearly perfect sets in graphs. Discrete Mathematics 138 (1995), 229-246]. Let \(S\subseteq V(G)\). We say that \(S\) is a nearly perfect set (or is nearly perfect) in \(G\) if every vertex in \(V(G)-S\) is adjacent to at most one vertex in \(S\). A nearly perfect set \(S\) in \(G\) is called maximal if for every vertex \(u\in V(G)-S\), \(S\cup \{u\}\) is not nearly perfect in \(G\). The minimum cardinality of a maximal nearly perfect set is denoted by \(n_p(G)\). It is our purpose in this paper to determine maximal nearly perfect sets in two well-known products of two graphs; i.e., in the Cartesian product and in the strong product. Lastly, we give upper bounds of \(n_p(G_1\times G_2)\) and \(n_p(G_1\otimes G_2)\), for some special graphs \(G_1\), \(G_2\).http://www.opuscula.agh.edu.pl/vol24/2/art/opuscula_math_2415.pdfdominating setsproduct of graphs
collection DOAJ
language English
format Article
sources DOAJ
author Maria Kwaśnik
Monika Perl
spellingShingle Maria Kwaśnik
Monika Perl
Nearly perfect sets in products of graphs
Opuscula Mathematica
dominating sets
product of graphs
author_facet Maria Kwaśnik
Monika Perl
author_sort Maria Kwaśnik
title Nearly perfect sets in products of graphs
title_short Nearly perfect sets in products of graphs
title_full Nearly perfect sets in products of graphs
title_fullStr Nearly perfect sets in products of graphs
title_full_unstemmed Nearly perfect sets in products of graphs
title_sort nearly perfect sets in products of graphs
publisher AGH Univeristy of Science and Technology Press
series Opuscula Mathematica
issn 1232-9274
publishDate 2004-01-01
description The study of nearly perfect sets in graphs was initiated in [Dunbar J. E., Harris F. C., Hedetniemi S. M., Hedetniemi S. T., McRae A. A., Laskar R. C.: Nearly perfect sets in graphs. Discrete Mathematics 138 (1995), 229-246]. Let \(S\subseteq V(G)\). We say that \(S\) is a nearly perfect set (or is nearly perfect) in \(G\) if every vertex in \(V(G)-S\) is adjacent to at most one vertex in \(S\). A nearly perfect set \(S\) in \(G\) is called maximal if for every vertex \(u\in V(G)-S\), \(S\cup \{u\}\) is not nearly perfect in \(G\). The minimum cardinality of a maximal nearly perfect set is denoted by \(n_p(G)\). It is our purpose in this paper to determine maximal nearly perfect sets in two well-known products of two graphs; i.e., in the Cartesian product and in the strong product. Lastly, we give upper bounds of \(n_p(G_1\times G_2)\) and \(n_p(G_1\otimes G_2)\), for some special graphs \(G_1\), \(G_2\).
topic dominating sets
product of graphs
url http://www.opuscula.agh.edu.pl/vol24/2/art/opuscula_math_2415.pdf
work_keys_str_mv AT mariakwasnik nearlyperfectsetsinproductsofgraphs
AT monikaperl nearlyperfectsetsinproductsofgraphs
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