This paper was published through Galoá and has a deposited DOI. To cite this paper, use one of the standards below:
In case you are one of the co-authors and want to register this paper in your Lattes, use the following code: doi > 10.59254/sbpo-2024-193802
If you've NEVER registered a DOI in your Lattes, check our tutorial!Given a positive integer k and a graph in which each edge has an associated label, the k-labeled spanning forest problem (kLSFP) is an NP-Hard combinatorial optimization problem that consists in finding a spanning forest of the graph with minimum number of connected components by using at most k labels. The problem was originally defined to model an application related to telecommunications networks and generalizes another better known problem called the minimum labeling spanning tree problem (MLSTP). In this paper, we propose a new pre-processing heuristic that breaks cycles of the input graph. We performed computational experiments and a statistical analysis to evaluate the effectiveness of the pre-processing heuristic used within a branch-and-cut method.
With nearly 200,000 papers published, Galoá empowers scholars to share and discover cutting-edge research through our streamlined and accessible academic publishing platform.
Learn more about our products:
This proceedings is identified by a DOI , for use in citations or bibliographic references. Attention: this is not a DOI for the paper and as such cannot be used in Lattes to identify a particular work.
Check the link "How to cite" in the paper's page, to see how to properly cite the paper