Polyhedral Aspects of Feedback Vertex Set and Pseudoforest Deletion Set
March 22, 2023 Β· Declared Dead Β· π Mathematical programming
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Authors
Karthekeyan Chandrasekaran, Chandra Chekuri, Samuel Fiorini, Shubhang Kulkarni, Stefan Weltge
arXiv ID
2303.12850
Category
cs.DS: Data Structures & Algorithms
Citations
3
Venue
Mathematical programming
Last Checked
4 months ago
Abstract
We consider the feedback vertex set problem in undirected graphs (FVS). The input to FVS is an undirected graph $G=(V,E)$ with non-negative vertex costs. The goal is to find a minimum cost subset of vertices $S \subseteq V$ such that $G-S$ is acyclic. FVS is a well-known NP-hard problem and does not admit a $(2-Ξ΅)$-approximation for any fixed $Ξ΅> 0$ assuming the Unique Games Conjecture. There are combinatorial $2$-approximation algorithms and also primal-dual based $2$-approximations. Despite the existence of these algorithms for several decades, there is no known polynomial-time solvable LP relaxation for FVS with a provable integrality gap of at most $2$. More recent work (Chekuri and Madan, SODA '16) developed a polynomial-sized LP relaxation for a more general problem, namely Subset FVS, and showed that its integrality gap is at most $13$ for Subset FVS, and hence also for FVS. Motivated by this gap in our knowledge, we undertake a polyhedral study of FVS and related problems. In this work, we formulate new integer linear programs (ILPs) for FVS whose LP-relaxation can be solved in polynomial time, and whose integrality gap is at most $2$. The new insights in this process also enable us to prove that the formulation in (Chekuri and Madan, SODA '16) has an integrality gap of at most $2$ for FVS. Our results for FVS are inspired by new formulations and polyhedral results for the closely-related pseudoforest deletion set problem (PFDS). Our formulations for PFDS are in turn inspired by a connection to the densest subgraph problem. We also conjecture an extreme point property for a LP-relaxation for FVS, and give evidence for the conjecture via a corresponding result for PFDS.
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