Fast fixed-parameter tractable algorithms for nontrivial generalizations of vertex cover

Our goal in this paper is the development of fast algorithms for recognizing general classes of graphs. We seek algorithms whose complexity can be expressed as a linear function of the graph size plus an exponential function of k, a natural parameter describing the class. In particular, we consider...

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Vydáno v:Discrete Applied Mathematics Ročník 152; číslo 1; s. 229 - 245
Hlavní autoři: Nishimura, Naomi, Ragde, Prabhakar, Thilikos, Dimitrios M.
Médium: Journal Article
Jazyk:angličtina
Vydáno: Lausanne Elsevier B.V 01.11.2005
Amsterdam Elsevier
New York, NY
Témata:
Algorithmics. Computability. Computer arithmetics
Applied sciences
Combinatorics
Combinatorics. Ordered structures
Computer science; control theory; systems
Exact sciences and technology
FPT algorithms
Graph minors
Graph theory
Mathematics
Parameterized complexity
Sciences and techniques of general use
Theoretical computing
Parameterized complexity
Graph minors
FPT algorithms
Computer theory
Linear function
FTP algorithm
Parametrized complexity
Connected graph
Vertex(graph)
Exponential function
Upper bound
Minimal graph
Algorithm complexity
Graph degree
Fast algorithm
Combinatorics
Linear graph
ISSN:0166-218X, 1872-6771
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Popis
Shrnutí:Our goal in this paper is the development of fast algorithms for recognizing general classes of graphs. We seek algorithms whose complexity can be expressed as a linear function of the graph size plus an exponential function of k, a natural parameter describing the class. In particular, we consider the class W k ( G ) , where for each graph G in W k ( G ) , the removal of a set of at most k vertices from G results in a graph in the base graph class G . (If G is the class of edgeless graphs, W k ( G ) is the class of graphs with bounded vertex cover.) When G is a minor-closed class such that each graph in G has bounded maximum degree, and all obstructions of G (minor-minimal graphs outside G ) are connected, we obtain an O ( ( g + k ) | V ( G ) | + ( fk ) k ) recognition algorithm for W k ( G ) , where g and f are constants (modest and quantified) depending on the class G . If G is the class of graphs with maximum degree bounded by D (not closed under minors), we can still obtain a running time of O ( | V ( G ) | ( D + k ) + k ( D + k ) k + 3 ) for recognition of graphs in W k ( G ) . Our results are obtained by considering bounded-degree minor-closed classes for which all obstructions are connected graphs, and showing that the size of any obstruction for W k ( G ) is O ( tk 7 + t 7 k 2 ) , where t is a bound on the size of obstructions for G . A trivial corollary of this result is an upper bound of ( k + 1 ) ( k + 2 ) on the number of vertices in any obstruction of the class of graphs with vertex cover of size at most k. These results are of independent graph-theoretic interest.
ISSN:0166-218X
1872-6771
DOI:10.1016/j.dam.2005.02.029