English

Cluster Editing for Multi-Layer and Temporal Graphs

Discrete Mathematics 2018-12-14 v2

Abstract

Motivated by the recent rapid growth of research for algorithms to cluster multi-layer and temporal graphs, we study extensions of the classical Cluster Editing problem. In Multi-Layer Cluster Editing we receive a set of graphs on the same vertex set, called layers and aim to transform all layers into cluster graphs (disjoint unions of cliques) that differ only slightly. More specifically, we want to mark at most dd vertices and to transform each layer into a cluster graph using at most kk edge additions or deletions per layer so that, if we remove the marked vertices, we obtain the same cluster graph in all layers. In Temporal Cluster Editing we receive a sequence of layers and we want to transform each layer into a cluster graph so that consecutive layers differ only slightly. That is, we want to transform each layer into a cluster graph with at most kk edge additions or deletions and to mark a distinct set of dd vertices in each layer so that each two consecutive layers are the same after removing the vertices marked in the first of the two layers. We study the combinatorial structure of the two problems via their parameterized complexity with respect to the parameters dd and kk, among others. Despite the similar definition, the two problems behave quite differently: In particular, Multi-Layer Cluster Editing is fixed-parameter tractable with running time kO(k+d)sO(1)k^{O(k+d)}\cdot s^{O(1)} for inputs of size ss, whereas Temporal Cluster Editing is W[1]-hard with respect to kk even if d=3d = 3.

Keywords

Cite

@article{arxiv.1709.09100,
  title  = {Cluster Editing for Multi-Layer and Temporal Graphs},
  author = {Jiehua Chen and Hendrik Molter and Manuel Sorge and Ondrej Suchy},
  journal= {arXiv preprint arXiv:1709.09100},
  year   = {2018}
}
R2 v1 2026-06-22T21:55:31.721Z