A Polynomial Time Algorithm for Almost Optimal Vertex Fault Tolerant Spanners

Abstract

We present the first polynomial time algorithm for the f vertex fault tolerant spanner problem, which achieves almost optimal spanner size. Our algorithm for constructing f vertex fault tolerant spanner takes O(k· n· m2 · W) time, where W is the maximum edge weight, and constructs a spanner of size O(n1+1/kf1-1/k· ( n)1-1/k). Our spanner has almost optimal size and is at most a n factor away from the upper bound on the worst-case size. Prior to this work, no other polynomial time algorithm was known for constructing f vertex fault tolerant spanner with optimal size. Our algorithm is based on first greedily constructing a hitting set for the collection of paths of weight at most k · w(u,v) between the endpoints u and v of an edge (u,v) and then using this set to decide whether the edge (u,v) needs to be added to the growing spanner.