Your search keyword '"metabolic networks"' showing total 3 results

1. Finding Supported Paths in Heterogeneous Networks

Author

Guillaume Fertin, Christian Komusiewicz, Hafedh Mohamed-Babou, and Irena Rusu

Subjects

NP-hard problems, directed acyclic graphs, longest path problem, shortest path problem, protein interaction networks, metabolic networks, Industrial engineering. Management engineering, T55.4-60.8, Electronic computers. Computer science, QA75.5-76.95

Abstract

Subnetwork mining is an essential issue in the analysis of biological, social and communication networks. Recent applications require the simultaneous mining of several networks on the same or a similar vertex set. That is, one searches for subnetworks fulfilling different properties in each input network. We study the case that the input consists of a directed graph D and an undirected graph G on the same vertex set, and the sought pattern is a path P in D whose vertex set induces a connected subgraph of G. In this context, three concrete problems arise, depending on whether the existence of P is questioned or whether the length of P is to be optimized: in that case, one can search for a longest path or (maybe less intuitively) a shortest one. These problems have immediate applications in biological networks and predictable applications in social, information and communication networks. We study the classic and parameterized complexity of the problem, thus identifying polynomial and NP-complete cases, as well as fixed-parameter tractable and W[1]-hard cases. We also propose two enumeration algorithms that we evaluate on synthetic and biological data.

Published

2015

2. Finding Supported Paths in Heterogeneous Networks.

Author

Fertin, Guillaume, Komusiewicz, Christian, Mohamed-Babou, Hafedh, and Rusu, Irena

Subjects

*VERTEX operator algebras, *BIOLOGICAL networks, *BIOLOGICAL mathematical modeling, *BIOLOGICAL databases, *POLYNOMIALS

Abstract

Subnetwork mining is an essential issue in the analysis of biological, social and communication networks. Recent applications require the simultaneous mining of several networks on the same or a similar vertex set. That is, one searches for subnetworks fulfilling different properties in each input network. We study the case that the input consists of a directed graph D and an undirected graph G on the same vertex set, and the sought pattern is a path P in D whose vertex set induces a connected subgraph of G. In this context, three concrete problems arise, depending on whether the existence of P is questioned or whether the length of P is to be optimized: in that case, one can search for a longest path or (maybe less intuitively) a shortest one. These problems have immediate applications in biological networks and predictable applications in social, information and communication networks. We study the classic and parameterized complexity of the problem, thus identifying polynomial and NP-complete cases, as well as fixed-parameter tractable and W[1]-hard cases. We also propose two enumeration algorithms that we evaluate on synthetic and biological data. [ABSTRACT FROM AUTHOR]

Published

2015

3. Finding Supported Paths in Heterogeneous Networks

Author

Hafedh Mohamed-Babou, Irena Rusu, Christian Komusiewicz, Guillaume Fertin, Laboratoire d'Informatique de Nantes Atlantique (LINA), Centre National de la Recherche Scientifique (CNRS)-Mines Nantes (Mines Nantes)-Université de Nantes (UN), Technische Universität Berlin (TU), and PHC Procope 55934856Bourse post-doctorale Région Pays de la Loire

Subjects

Vertex (graph theory), [INFO.INFO-CC]Computer Science [cs]/Computational Complexity [cs.CC], lcsh:T55.4-60.8, Bidirectional search, [INFO.INFO-DS]Computer Science [cs]/Data Structures and Algorithms [cs.DS], Vertex cover, NP-hard problems, lcsh:QA75.5-76.95, Theoretical Computer Science, lcsh:Industrial engineering. Management engineering, protein interaction networks, shortest path problem, Mathematics, Discrete mathematics, Numerical Analysis, directed acyclic graphs, Directed graph, Directed acyclic graph, longest path problem, Longest path problem, Computational Mathematics, Computational Theory and Mathematics, Shortest path problem, metabolic networks, Feedback vertex set, lcsh:Electronic computers. Computer science, ddc:004, [INFO.INFO-BI]Computer Science [cs]/Bioinformatics [q-bio.QM]

Abstract

International audience; Subnetwork mining is an essential issue in the analysis of biological, social and communication networks. Recent applications require the simultaneous mining of several networks on the same or a similar vertex set. That is, one searches for subnetworks fulfilling different properties in each input network. We study the case that the input consists of a directed graph D and an undirected graph G on the same vertex set, and the sought pattern is a path P in D whose vertex set induces a connected subgraph of G. In this context, three concrete problems arise, depending on whether the existence of P is questioned or whether the length of P is to be optimized: in that case, one can search for a longest path or (maybe less intuitively) a shortest one. These problems have immediate applications in biological networks and predictable applications in social, information and communication networks. We study the classic and parameterized complexity of the problem, thus identifying polynomial and NP-complete cases, as well as fixed-parameter tractable and W[1]-hard cases. We also propose two enumeration algorithms that we evaluate on synthetic and biological data.

Published

2015