The matroid secretary problem for minor-closed classes and random matroids

Abstract

We prove that for every proper minor-closed class M of matroids representable over a prime field, there exists a constant-competitive matroid secretary algorithm for the matroids in M. This result relies on the extremely powerful matroid minor structure theory being developed by Geelen, Gerards and Whittle. We also note that for asymptotically almost all matroids, the matroid secretary algorithm that selects a random basis, ignoring weights, is (2+o(1))-competitive. In fact, assuming the conjecture that almost all matroids are paving, there is a (1+o(1))-competitive algorithm for almost all matroids.