Fully leafed induced subtrees

September 28, 2017 Β· Declared Dead Β· πŸ› International Workshop on Combinatorial Algorithms

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Authors Alexandre Blondin MassΓ©, Julien de Carufel, Alain Goupil, MΓ©lodie Lapointe, Γ‰mile Nadeau, Γ‰lise Vandomme arXiv ID 1709.09808 Category cs.DS: Data Structures & Algorithms Cross-listed math.CO Citations 11 Venue International Workshop on Combinatorial Algorithms Last Checked 4 months ago
Abstract
Let $G$ be a simple graph on $n$ vertices. We consider the problem LIS of deciding whether there exists an induced subtree with exactly $i \leq n$ vertices and $\ell$ leaves in $G$. We study the associated optimization problem, that consists in computing the maximal number of leaves, denoted by $L_G(i)$, realized by an induced subtree with $i$ vertices, for $0 \le i \le n$. We begin by proving that the LIS problem is NP-complete in general and then we compute the values of the map $L_G$ for some classical families of graphs and in particular for the $d$-dimensional hypercubic graphs $Q_d$, for $2 \leq d \leq 6$. We also describe a nontrivial branch and bound algorithm that computes the function $L_G$ for any simple graph $G$. In the special case where $G$ is a tree of maximum degree $Ξ”$, we provide a $\mathcal{O}(n^3Ξ”)$ time and $\mathcal{O}(n^2)$ space algorithm to compute the function $L_G$.
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