Edge degeneracy: Algorithmic and structural results

Limnios, Stratis; Paul, Christophe; Perret, Joanny; Thilikos, Dimitrios M.

doi:10.1016/j.tcs.2020.06.006

Cited by 2 publications

(1 citation statement)

References 20 publications

(35 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…We need the following two observations. Observations (i) and (ii) follow from the combinatorial results of [38] and [16] respectively. Covering bonds.…”

Section: Bonds and Pumpkinsmentioning

confidence: 99%

A Constant-factor Approximation for Weighted Bond Cover

Kim,

Lee,

Thilikos

2021

Preprint

Self Cite

View full text Add to dashboard Cite

The Weighted F-Vertex Deletion for a class F of graphs asks, weighted graph G, for a minimum weight vertex set S such that G − S ∈ F. The case when F is minor-closed and excludes some graph as a minor has received particular attention but a constant-factor approximation remained elusive for Weighted F-Vertex Deletion. Only three cases of minor-closed F are known to admit constant-factor approximations, namely Vertex Cover, Feedback Vertex Set and Diamond Hitting Set. We study the problem for the class F of θ c -minor-free graphs, under the equivalent setting of the Weighted c-Bond Cover problem, and present a constant-factor approximation algorithm using the primal-dual method. For this, we leverage a structure theorem implicit in [Joret et al., SIDMA'14] which states the following: any graph G containing a θ c -minor-model either contains a large two-terminal protrusion, or contains a constant-size θ c -minor-model, or a collection of pairwise disjoint constant-sized connected sets that can be contracted simultaneously to yield a dense graph. In the first case, we tame the graph by replacing the protrusion with a special-purpose weighted gadget. For the second and third case, we provide a weighting scheme which guarantees a local approximation ratio. Besides making an important step in the quest of (dis)proving a constant-factor approximation for Weighted F-Vertex Deletion, our result may be useful as a template for algorithms for other minor-closed families.

show abstract

“…We need the following two observations. Observations (i) and (ii) follow from the combinatorial results of [38] and [16] respectively. Covering bonds.…”

Section: Bonds and Pumpkinsmentioning

confidence: 99%