Neighborhood covering and independence on P4-tidy graphs and tree-cographs
Given a simple graph G, a set (Formula presented.) is a neighborhood cover set if every edge and vertex of G belongs to some G[v] with (Formula presented.), where G[v] denotes the subgraph of G induced by the closed neighborhood of the vertex v. Two elements of (Formula presented.) are neighborhood-...
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| Acceso en línea: | http://hdl.handle.net/20.500.12110/paper_02545330_v_n_p1_Duran |
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todo:paper_02545330_v_n_p1_Duran2023-10-03T15:11:36Z Neighborhood covering and independence on P4-tidy graphs and tree-cographs Durán, G. Safe, M. Warnes, X. $$P_4$$P4-tidy graphs Co-bipartite graphs Forbidden induced subgraphs Neighborhood-perfect graphs Recognition algorithms Tree-cographs Given a simple graph G, a set (Formula presented.) is a neighborhood cover set if every edge and vertex of G belongs to some G[v] with (Formula presented.), where G[v] denotes the subgraph of G induced by the closed neighborhood of the vertex v. Two elements of (Formula presented.) are neighborhood-independent if there is no vertex (Formula presented.) such that both elements are in G[v]. A set (Formula presented.) is neighborhood-independent if every pair of elements of S is neighborhood-independent. Let (Formula presented.) be the size of a minimum neighborhood cover set and (Formula presented.) of a maximum neighborhood-independent set. Lehel and Tuza defined neighborhood-perfect graphs G as those where the equality (Formula presented.) holds for every induced subgraph (Formula presented.) of G. In this work we prove forbidden induced subgraph characterizations of the class of neighborhood-perfect graphs, restricted to two superclasses of cographs: (Formula presented.)-tidy graphs and tree-cographs. We give as well linear-time algorithms for solving the recognition problem of neighborhood-perfect graphs and the problem of finding a minimum neighborhood cover set and a maximum neighborhood-independent set in these same classes. Finally we prove that although for complements of trees finding these optimal sets can be achieved in linear-time, for complements of bipartite graphs it is (Formula presented.)-hard. © 2017 Springer Science+Business Media, LLC, part of Springer Nature INPR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_02545330_v_n_p1_Duran |
| institution |
Universidad de Buenos Aires |
| institution_str |
I-28 |
| repository_str |
R-134 |
| collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
| topic |
$$P_4$$P4-tidy graphs Co-bipartite graphs Forbidden induced subgraphs Neighborhood-perfect graphs Recognition algorithms Tree-cographs |
| spellingShingle |
$$P_4$$P4-tidy graphs Co-bipartite graphs Forbidden induced subgraphs Neighborhood-perfect graphs Recognition algorithms Tree-cographs Durán, G. Safe, M. Warnes, X. Neighborhood covering and independence on P4-tidy graphs and tree-cographs |
| topic_facet |
$$P_4$$P4-tidy graphs Co-bipartite graphs Forbidden induced subgraphs Neighborhood-perfect graphs Recognition algorithms Tree-cographs |
| description |
Given a simple graph G, a set (Formula presented.) is a neighborhood cover set if every edge and vertex of G belongs to some G[v] with (Formula presented.), where G[v] denotes the subgraph of G induced by the closed neighborhood of the vertex v. Two elements of (Formula presented.) are neighborhood-independent if there is no vertex (Formula presented.) such that both elements are in G[v]. A set (Formula presented.) is neighborhood-independent if every pair of elements of S is neighborhood-independent. Let (Formula presented.) be the size of a minimum neighborhood cover set and (Formula presented.) of a maximum neighborhood-independent set. Lehel and Tuza defined neighborhood-perfect graphs G as those where the equality (Formula presented.) holds for every induced subgraph (Formula presented.) of G. In this work we prove forbidden induced subgraph characterizations of the class of neighborhood-perfect graphs, restricted to two superclasses of cographs: (Formula presented.)-tidy graphs and tree-cographs. We give as well linear-time algorithms for solving the recognition problem of neighborhood-perfect graphs and the problem of finding a minimum neighborhood cover set and a maximum neighborhood-independent set in these same classes. Finally we prove that although for complements of trees finding these optimal sets can be achieved in linear-time, for complements of bipartite graphs it is (Formula presented.)-hard. © 2017 Springer Science+Business Media, LLC, part of Springer Nature |
| format |
INPR |
| author |
Durán, G. Safe, M. Warnes, X. |
| author_facet |
Durán, G. Safe, M. Warnes, X. |
| author_sort |
Durán, G. |
| title |
Neighborhood covering and independence on P4-tidy graphs and tree-cographs |
| title_short |
Neighborhood covering and independence on P4-tidy graphs and tree-cographs |
| title_full |
Neighborhood covering and independence on P4-tidy graphs and tree-cographs |
| title_fullStr |
Neighborhood covering and independence on P4-tidy graphs and tree-cographs |
| title_full_unstemmed |
Neighborhood covering and independence on P4-tidy graphs and tree-cographs |
| title_sort |
neighborhood covering and independence on p4-tidy graphs and tree-cographs |
| url |
http://hdl.handle.net/20.500.12110/paper_02545330_v_n_p1_Duran |
| work_keys_str_mv |
AT durang neighborhoodcoveringandindependenceonp4tidygraphsandtreecographs AT safem neighborhoodcoveringandindependenceonp4tidygraphsandtreecographs AT warnesx neighborhoodcoveringandindependenceonp4tidygraphsandtreecographs |
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1807315739081703424 |