Correcting a Graph Into a Linegraph Minimizing Hamming Distance Edition Is NP-Complete and FPT by Treewidth
DOI:
https://doi.org/10.7155/jgaa.v29i1.3029Keywords:
Graph edit distance, Linegraph, Parameterized complexityAbstract
Since Beineke's work in 1968 on linegraphs, attention has focused on the classification of graphs as linegraphs.It is known that every graph $G$ is the linegraph of an hypergraph, and the question is to characterize that root graph.
We introduce the $C_{p,q}$ classes, defined as sets of graphs where each vertex can be covered by at most $p$ cliques, and each edge belongs to at most $q$ cliques.
These classes provide a comprehensive classification of linegraphs through a unified and parameterized approach.
They describe previously known graph classes - such as linegraphs of simple graphs, $p$-uniform hypergraphs and $p$-uniform $1$-linear hypergraphs - while being capable of generalization.
We study the complexity of determining the membership and edit distance of a graph to one of these classes.
We prove the first Fixed Parameter Tractable algorithm with respect to treewidth to compute the edit distance.
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Published
2025-04-24
How to Cite
Barth, D., Watel, D., & Weisser, M.-A. (2025). Correcting a Graph Into a Linegraph Minimizing Hamming Distance Edition Is NP-Complete and FPT by Treewidth. Journal of Graph Algorithms and Applications, 29(1), 63–90. https://doi.org/10.7155/jgaa.v29i1.3029
License
Copyright (c) 2025 Dominique Barth, Dimitri Watel, Marc-Antoine Weisser
This work is licensed under a Creative Commons Attribution 4.0 International License.
