Exact and heuristic algorithms for weighted cluster editing.

S. Rahmann, T. Wittkop, J. Baumbach, Marcel Martin, A. Truß, Sebastian Böcker
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引用次数: 69

Abstract

Clustering objects according to given similarity or distance values is a ubiquitous problem in computational biology with diverse applications, e.g., in defining families of orthologous genes, or in the analysis of microarray experiments. While there exists a plenitude of methods, many of them produce clusterings that can be further improved. "Cleaning up" initial clusterings can be formalized as projecting a graph on the space of transitive graphs; it is also known as the cluster editing or cluster partitioning problem in the literature. In contrast to previous work on cluster editing, we allow arbitrary weights on the similarity graph. To solve the so-defined weighted transitive graph projection problem, we present (1) the first exact fixed-parameter algorithm, (2) a polynomial-time greedy algorithm that returns the optimal result on a well-defined subset of "close-to-transitive" graphs and works heuristically on other graphs, and (3) a fast heuristic that uses ideas similar to those from the Fruchterman-Reingold graph layout algorithm. We compare quality and running times of these algorithms on both artificial graphs and protein similarity graphs derived from the 66 organisms of the COG dataset.
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加权聚类编辑的精确启发式算法。
根据给定的相似性或距离值聚类对象是计算生物学中具有多种应用的普遍问题,例如,在定义同源基因家族或在微阵列实验分析中。虽然存在大量的方法,但其中许多方法产生的聚类可以进一步改进。“清理”初始聚类可以形式化为在传递图空间上投影一个图;它在文献中也被称为聚类编辑或聚类划分问题。与之前的聚类编辑工作不同,我们允许在相似图上使用任意权重。为了解决这样定义的加权传递图投影问题,我们提出了(1)第一种精确的固定参数算法,(2)一个多项式时间贪婪算法,它在一个定义良好的“接近传递”图子集上返回最优结果,并在其他图上启发式地工作,以及(3)一个使用类似于Fruchterman-Reingold图布局算法的思想的快速启发式算法。我们比较了这些算法在人工图和来自COG数据集的66种生物的蛋白质相似图上的质量和运行时间。
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