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Link to original content: https://doi.org/10.23638/DMTCS-20-2-10
#4873 - Parameterized Power Vertex Cover

Eric Angel ; Evripidis Bampis ; Bruno Escoffier ; Michael Lampis - Parameterized Power Vertex Cover

dmtcs:4256 - Discrete Mathematics & Theoretical Computer Science, October 8, 2018, vol. 20 no. 2 - https://doi.org/10.23638/DMTCS-20-2-10
Parameterized Power Vertex CoverArticle

Authors: Eric Angel ; Evripidis Bampis ; Bruno Escoffier ; Michael Lampis

    We study a recently introduced generalization of the Vertex Cover (VC) problem, called Power Vertex Cover (PVC). In this problem, each edge of the input graph is supplied with a positive integer demand. A solution is an assignment of (power) values to the vertices, so that for each edge one of its endpoints has value as high as the demand, and the total sum of power values assigned is minimized. We investigate how this generalization affects the parameterized complexity of Vertex Cover. On the positive side, when parameterized by the value of the optimal P, we give an O*(1.274^P)-time branching algorithm (O* is used to hide factors polynomial in the input size), and also an O*(1.325^P)-time algorithm for the more general asymmetric case of the problem, where the demand of each edge may differ for its two endpoints. When the parameter is the number of vertices k that receive positive value, we give O*(1.619^k) and O*(k^k)-time algorithms for the symmetric and asymmetric cases respectively, as well as a simple quadratic kernel for the asymmetric case. We also show that PVC becomes significantly harder than classical VC when parameterized by the graph's treewidth t. More specifically, we prove that unless the ETH is false, there is no n^o(t)-time algorithm for PVC. We give a method to overcome this hardness by designing an FPT approximation scheme which gives a (1+epsilon)-approximation to the optimal solution in time FPT in parameters t and 1/epsilon.


    Volume: vol. 20 no. 2
    Section: Discrete Algorithms
    Published on: October 8, 2018
    Accepted on: September 21, 2018
    Submitted on: February 1, 2018
    Keywords: Computer Science - Data Structures and Algorithms

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