Assigning channels via the meet-in-the-middle approach

Abstract

We study the complexity of the Channel Assignment problem. By applying the meet-in-the-middle approach we get an algorithm for the -bounded Channel Assignment (when the edge weights are bounded by ) running in time O*((2+1)n). This is the first algorithm which breaks the (O())n barrier. We extend this algorithm to the counting variant, at the cost of slightly higher polynomial factor. A major open problem asks whether Channel Assignment admits a O(cn)-time algorithm, for a constant c independent of . We consider a similar question for Generalized T-Coloring, a CSP problem that generalizes . We show that Generalized T-Coloring does not admit a 22o(n) poly(r)-time algorithm, where r is the size of the instance.