Structural Parameterization of Cluster Deletion

In the Weighted Cluster Deletion problem we are given a graph with non-negative integral edge weights and the task is to determine, for a target value k , if there is a set of edges of total weight at most k such that its removal results in a disjoint union of cliques. It is well-known that the prob...

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Bibliographic Details
Published in:Algorithmica Vol. 87; no. 6; pp. 961 - 981
Main Authors: Italiano, Giuseppe F., Konstantinidis, Athanasios L., Papadopoulos, Charis
Format: Journal Article
Language:English
Published: New York Springer US 01.06.2025
Springer Nature B.V
Subjects:
Algorithm Analysis and Problem Complexity
Algorithms
Clusters
Computer Science
Computer Systems Organization and Communication Networks
Data Structures and Information Theory
Deletion
Mathematics of Computing
Neighborhoods
Parameterization
Parameters
Theory of Computation
FPT algorithm
Twin cover number
Neighborhood diversity
Vertex cover number
Cluster deletion problem
ISSN:0178-4617, 1432-0541
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Summary:In the Weighted Cluster Deletion problem we are given a graph with non-negative integral edge weights and the task is to determine, for a target value k , if there is a set of edges of total weight at most k such that its removal results in a disjoint union of cliques. It is well-known that the problem is FPT parameterized by k , the total weight of edge deletions. In scenarios in which the solution size is large, naturally one needs to drop the constraint on the solution size. Here we study Weighted Cluster Deletion where the parameter does not represent the size of the solution, but the parameter captures structural properties of the input graph. Our main contribution is to classify the parameterized complexity of Weighted Cluster Deletion with three structural parameters, namely, vertex cover number, twin cover number and neighborhood diversity. We show that the problem is FPT when parameterized by the vertex cover number, whereas it becomes paraNP-hard when parameterized by the twin cover number or the neighborhood diversity. To illustrate the applicability of our FPT result, we turn our attention to the unweighted variant of the problem, namely Cluster Deletion . We show that Cluster Deletion is FPT parameterized by the twin cover number. This is the first algorithm with single-exponential running time parameterized by the twin cover number. Interestingly, we are able to achieve an FPT result for Cluster Deletion parameterized by the neighborhood diversity that involves an ILP formulation. In fact, our results generalize the parameterized setting by the solution size, as we deduce that both parameters, twin cover number and neighborhood diversity, are linearly bounded by the number of edge deletions.
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ISSN:0178-4617
1432-0541
DOI:10.1007/s00453-025-01303-1