Sensitivity, Proximity and FPT Algorithms for Exact Matroid Problems

Abstract

We consider the problem of finding a basis of a matroid with weight exactly equal to a given target. Here weights can be discrete values from \-,…,\ or more generally m-dimensional vectors of such discrete values. We resolve the parameterized complexity completely, by presenting an FPT algorithm parameterized by and m for arbitrary matroids. Prior to our work, no such algorithms were known even when weights are in \0,1\, or arbitrary and m=1. Our main technical contributions are new proximity and sensitivity bounds for matroid problems, independent of the number of elements. These bounds imply FPT algorithms via matroid intersection.

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