A tight Erdos-P\'osa function for planar minors

Abstract

Let H be a planar graph. By a classical result of Robertson and Seymour, there is a function f:N R such that for all k ∈ N and all graphs G, either G contains k vertex-disjoint subgraphs each containing H as a minor, or there is a subset X of at most f(k) vertices such that G-X has no H-minor. We prove that this remains true with f(k) = c k k for some constant c=c(H). This bound is best possible, up to the value of c, and improves upon a recent result of Chekuri and Chuzhoy [STOC 2013], who established this with f(k) = c k d k for some universal constant d. The proof is constructive and yields a polynomial-time O( OPT)-approximation algorithm for packing subgraphs containing an H-minor.