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JCO
2007

Approximation algorithms and hardness results for labeled connectivity problems

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Approximation algorithms and hardness results for labeled connectivity problems
Let G = (V, E) be a connected multigraph, whose edges are associated with labels specified by an integer-valued function L : E → N. In addition, each label ℓ ∈ N has a non-negative cost c(ℓ). The minimum label spanning tree problem (MinLST) asks to find a spanning tree in G that minimizes the overall cost of the labels used by its edges. Equivalently, we aim at finding a minimum cost subset of labels I ⊆ N such that the edge set {e ∈ E : L(e) ∈ I} forms a connected subgraph spanning all vertices. Similarly, in the minimum label s-t path problem (MinLP) the goal is to identify an s-t path minimizing the combined cost of its labels. The main contributions of this paper are improved approximation algorithms and hardness results for MinLST and MinLP.
Refael Hassin, Jérôme Monnot, Danny S
Added 15 Dec 2010
Updated 15 Dec 2010
Type Journal
Year 2007
Where JCO
Authors Refael Hassin, Jérôme Monnot, Danny Segev
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