Publication details

Algorithmic and Hardness Results for the Colorful Components Problems

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Authors

ADAMASZEK Anna POPA Alexandru

Year of publication 2014
Type Article in Proceedings
Conference 11th Latin American Theoretical Informatics Symposium, LATIN 2014
MU Faculty or unit

Faculty of Informatics

Citation
Doi http://dx.doi.org/10.1007/978-3-642-54423-1_59
Field Informatics
Keywords Algorithms; Information science; Polynomial approximation
Description In this paper we investigate the colorful components framework, motivated by applications emerging from comparative genomics. The general goal is to remove a collection of edges from an undirected vertex-colored graph G such that in the resulting graph C' all the connected components are colorful (i.e., any two vertices of the same color belong to different connected components). We want G' to optimize an objective function, the selection of this function being specific to each problem in the framework. We analyze three objective functions, and thus, three different problems, which are believed to be relevant for the biological applications: minimizing the number of singleton vertices, maximizing the number of edges in the transitive closure, and minimizing the number of connected components. Our main result is a polynomial-time algorithm for the first problem. This result disproves the conjecture of Zheng et al. that the problem is NP-hard (assuming P not equal NP). Then, we show that the second problem is APX-hard, thus proving and strengthening the conjecture of Zheng et al. that the problem is NP-hard. Finally, we show that the third problem does not admit polynomial-time approximation within a factor of vertical bar V vertical bar(1/14-epsilon) for any epsilon > 0, assuming P not equal NP (or within a factor of vertical bar V vertical bar(1/2-epsilon), assuming ZPP not equal NP).
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