posted on 2023-11-29, 18:06authored byMark de Berg, Hans L. Bodlaender, Sándor Kisfaludi-Bak, Dániel MarxDániel Marx, Tom C. van der Zanden
We give an algorithmic and lower bound framework that facilitates the construction of subexponential algorithms and matching conditional complexity bounds. It can be applied to intersection graphs of similarly-sized fat objects, yielding algorithms with running time $2^{O(n^{1-1/d})}$ for any fixed dimension $d\ge 2$ for many well-known graph problems, including Independent Set, $r$-Dominating Set for constant $r$, and Steiner Tree. For most problems, we get improved running times compared to prior work; in some cases, we give the first known subexponential algorithm in geometric intersection graphs. Additionally, most of the obtained algorithms are representation-agnostic, i.e., they work on the graph itself and do not require the geometric representation. Our algorithmic framework is based on a weighted separator theorem and various treewidth techniques. The lower bound framework is based on a constructive embedding of graphs into $d$-dimensional grids, and it allows us to derive matching $2^{\Omega(n^{1-1/d})}$ lower bounds under the exponential time hypothesis even in the much more restricted class of $d$-dimensional induced grid graphs.
History
Preferred Citation
Berg de, Hans Bodlaender, Sándor Kisfaludi-Bak, Dániel Marx and der van. A Framework for Exponential-Time-Hypothesis - Tight Algorithms and Lower Bounds in Geometric Intersection Graphs. In: SIAM Journal on Computing. 2020.
Primary Research Area
Algorithmic Foundations and Cryptography
Legacy Posted Date
2021-05-04
Journal
SIAM Journal on Computing
Pages
1291 - 1331
Open Access Type
Gold
Sub Type
Article
BibTeX
@article{cispa_all_3397,
title = "A Framework for Exponential-Time-Hypothesis - Tight Algorithms and Lower Bounds in Geometric Intersection Graphs",
author = "de Berg, Mark and Bodlaender, Hans L. and Kisfaludi-Bak, Sándor and Marx, Dániel and van der Zanden, Tom C.",
journal="{SIAM Journal on Computing}",
year="2020",
}