Your search keyword '"Eva-Marta Lundell"' showing total 6 results

1. Induced subgraph isomorphism: Are some patterns substantially easier than others?

Author

Peter Floderus, Andrzej Lingas, Mirosław Kowaluk, and Eva-Marta Lundell

Subjects

Combinatorics, Discrete mathematics, Graph center, General Computer Science, Induced path, Independent set, Neighbourhood (graph theory), Induced subgraph, Induced subgraph isomorphism problem, Path graph, Distance, Theoretical Computer Science, Mathematics

Abstract

The complexity of the subgraph isomorphism problem where the pattern graph is of fixed size is well known to depend on the topology of the pattern graph. Here, we present two results which, in contrast, provide evidence that no topology of an induced subgraph of fixed size can be substantially easier to detect or count than an independent set of related size.We show that any fixed pattern graph having a maximum independent set of size k that is disjoint from other maximum independent sets is not easier to detect as an induced subgraph than an independent set of size k. It follows in particular that an induced path on 2 k - 1 vertices is not easier to detect than an independent set on k vertices, and that an induced cycle on 2k vertices is not easier to detect than an independent set on k vertices. In view of linear time upper bounds on the detection of induced path of length two and three, our lower bound is tight. Similar corollaries hold for the detection of induced complete bipartite graphs and an induced paw and its generalizations.We show also that for an arbitrary pattern graph H on k vertices with no isolated vertices, there is a simple subdivision of H, resulting from splitting each edge into a path of length four and attaching a distinct path of length three at each vertex of degree one, that is not easier to detect or count than an independent set on k vertices, respectively.Next, we show that the so-called diamond and its generalizations on k vertices are not easier to detect as induced subgraphs than an independent set on three vertices or an independent set on k vertices, respectively. For C 4 , we give a weaker evidence of its hardness in terms of an independent set on three vertices.Finally, we derive several results relating the complexity of the edge-colored variant of induced subgraph isomorphism to that of the standard variant.

Published

2015

2. Detecting and Counting Small Pattern Graphs

Author

Andrzej Lingas, Eva-Marta Lundell, Mirosław Kowaluk, and Peter Floderus

Subjects

Combinatorics, Discrete mathematics, General Mathematics, Subgraph isomorphism problem, Induced subgraph isomorphism problem, Graph homomorphism, Cograph, Split graph, Graph isomorphism, MathematicsofComputing_DISCRETEMATHEMATICS, Mathematics, Distance-hereditary graph, Universal graph

Abstract

We study the induced subgraph isomorphism problem and the general subgraph isomorphism problem for small pattern graphs. We present a new general method for detecting induced subgraphs of a host graph isomorphic to a fixed pattern graph by reduction to polynomial testing for nonidentity with zero over a field of finite characteristic. It yields new upper time bounds for several pattern graphs on five vertices and provides an alternative combinatorial method for the majority of pattern graphs on four and three vertices. Since our method avoids the large overhead of fast matrix multiplication, it can be of practical interest even for larger pattern graphs. Next, we derive new upper time bounds on counting the number of isomorphisms between a fixed pattern graph with an independent set of size $s$ and a subgraph of the host graph. We also consider a weighted version of the counting problem, when one counts the number of isomorphisms between the pattern graph and lightest subgraphs, providing a slightly slowe...

Published

2015

3. Unique subgraphs are not easier to find

Author

Andrzej Lingas, Mirosław Kowaluk, and Eva-Marta Lundell

Subjects

Discrete mathematics, Induced path, Applied Mathematics, Subgraph isomorphism problem, Graph canonization, Computer Science Applications, Combinatorics, Computational Theory and Mathematics, Graph power, Induced subgraph isomorphism problem, Complement graph, Forbidden graph characterization, Mathematics, Distance-hereditary graph

Abstract

Given a pattern graph H with l edges, and a host graph G guaranteed to contain at most one occurrence of a subgraph isomorphic to H , we show that the time complexity of the problem of finding such an occurrence if any in G as well as that of the decision version of the problem are within a multiplicative factor O l of the time complexity for the corresponding problem in the general case, when G may contain several occurrences of H . It follows that for pattern graphs of constant size, the aforementioned uniqueness guarantee cannot yield any asymptotic speed up. We also derive analogous results with the analogous multiplicative factor linear in the number of vertices of H in the induced case when occurrences of induced subgraphs of G isomorphic to H are sought.

Published

2013

4. Detecting and Counting Small Pattern Graphs

Author

Andrzej Lingas, Mirosław Kowaluk, Peter Floderus, and Eva-Marta Lundell

Subjects

Discrete mathematics, Mathematics::Combinatorics, Subgraph isomorphism problem, Combinatorics, Indifference graph, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, Computer Science::Discrete Mathematics, Chordal graph, TheoryofComputation_ANALYSISOFALGORITHMSANDPROBLEMCOMPLEXITY, ComputingMethodologies_SYMBOLICANDALGEBRAICMANIPULATION, Induced subgraph isomorphism problem, Cograph, Graph homomorphism, Graph isomorphism, Computer Science::Data Structures and Algorithms, MathematicsofComputing_DISCRETEMATHEMATICS, Mathematics, Universal graph

Abstract

We study the induced subgraph isomorphism problem and the general subgraph isomorphism problem for small pattern graphs.

Published

2013

5. Induced Subgraph Isomorphism: Are Some Patterns Substantially Easier Than Others?

Author

Andrzej Lingas, Eva-Marta Lundell, Mirosław Kowaluk, and Peter Floderus

Subjects

Combinatorics, Induced path, Independent set, Subgraph isomorphism problem, Induced subgraph, Bipartite graph, Induced subgraph isomorphism problem, Upper and lower bounds, MathematicsofComputing_DISCRETEMATHEMATICS, Vertex (geometry), Mathematics

Abstract

The complexity of the subgraph isomorphism problem where the pattern graph is of fixed size is well known to depend on the topology of the pattern graph. For instance, the larger the maximum independent set of the pattern graph is the more efficient algorithms are known. The situation seems to be substantially different in the case of induced subgraph isomorphism for pattern graphs of fixed size. We present two results which provide evidence that no topology of an induced subgraph of fixed size can be easier to detect or count than an independent set of related size. We show that: Any fixed pattern graph that has a maximum independent set of size k that is disjoint from other maximum independent sets is not easier to detect as an induced subgraph than an independent set of size k. It follows in particular that an induced path on k vertices is not easier to detect than an independent set on ⌈k/2 ⌉ vertices, and that an induced even cycle on k vertices is not easier to detect than an independent set on k/2 vertices. In view of linear time upper bounds on induced paths of length three and four, our lower bound is tight. Similar corollaries hold for the detection of induced complete bipartite graphs and induced complete split graphs. For an arbitrary pattern graph H on k vertices with no isolated vertices, there is a simple subdivision of H, resulting from splitting each edge into a path of length four and attaching a distinct path of length three at each vertex of degree one, that is not easier to detect or count than an independent set on k vertices, respectively. Finally, we show that the so called diamond, paw and C 4 are not easier to detect as induced subgraphs than an independent set on three vertices.

Published

2012

6. Unique Small Subgraphs Are Not Easier to Find

Author

Mirosław Kowaluk, Eva-Marta Lundell, and Andrzej Lingas

Subjects

Combinatorics, Discrete mathematics, Graph power, Subgraph isomorphism problem, Induced subgraph isomorphism problem, Graph factorization, Graph canonization, Complement graph, Forbidden graph characterization, Mathematics, Distance-hereditary graph

Abstract

Given a pattern graph H of fixed size, and a host graph G guaranteed to contain at most one occurrence of a subgraph isomorphic to H, we show that both the problem of finding such an occurrence (if any) as well as the decision version of the problem are as hard as in the general case when G may contain several occurrences of H.

Published

2011