Doutorado em Ciência da Computação
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Navegando Doutorado em Ciência da Computação por Autor "Nascimento, Julliano Rosa"
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Item Problema de particionamento em subgrafos complementares: complexidade e convexidade(Universidade Federal de Goiás, 2019-11-11) Nascimento, Julliano Rosa; Coelho, Erika Morais Martins; http://lattes.cnpq.br/9389487015938509; Castonguay, Diane; http://lattes.cnpq.br/4005898623592261; Castonguay, Diane; Coelho, Erika Morais Martins; Protti, Fábio; Szwarcfiter, Jayme Luiz; Pinto, Leizer de LimaIn this work, we introduce the PARTITION INTO COMPLEMENTARY SUBGRAPHS (COMP-SUB(Pi)) problem, which receives as input a graph H and an edge set property Pi, and the goal is determining whether is possible to decompose the graph H into complementary subgraphs G and \bar{G} such that the edge set M between G and \bar{G} satisfies property Pi. COMP-SUB(Pi) generalizes the recognition of complementary prisms problem, which is the case when Pi is a perfect matching between corresponding vertices of G and \bar{G}. When Pi is arbitrary, we show results for k-clique or k-independent set free graphs. On property P_\emptyset which considers M =\emptyset, we show that COMP-SUB(P_\emptyset) is GI-complete for chordal graphs, but can be solved efficiently for permutation, comparability, co- comparability and co-interval graphs. Furthermore, we obtain characterizations for some subclasses of chordal graphs. We also obtain results for Pi_{Kn,n} , the case when M has all the possible edges between G and \bar{G} and for Pi_{PERF}, the case which considers M as a perfect matching. In particular, we show that COMP-SUB(Pi_{PERF}) problem is GI-hard, and we obtain characterizations for this problem when the input graph H is a cograph, a chordal or a distance-hereditary graph. On the other hand, we address three parameters of the geodetic convexity for complementary prisms: the hull number, the geodetic number and the convexity number. We obtain results on the hull number for complementary prisms G\bar{G} when both G e \bar{G} are connected. On the second and third parameter, we show that the decision problems related to the geodetic number and convexity number are NP-complete even restricted to complementary prisms. We also establish lower bounds on the geodetic number for G\bar{G} when G or \bar{G} have simplicial vertices and we determine the convexity number for G\bar{G} when G is disconnected, or G is a cograph.