Two Complexity Results on Spanning-Tree Congestion Problems

arXiv:2601.10881v1 Announce Type: new
Abstract: In the spanning-tree congestion problem ($mathsf{STC}$), we are given a graph $G$, and the objective is to compute a spanning tree of $G$ that minimizes the maximum edge congestion. While $mathsf{STC}$ is known to be $mathbb{NP}$-hard, even for some restricted graph classes, several key questions regarding its computational complexity remain open, and we address some of these in our paper. (i) For graphs of degree at most $d$, it is known that $mathsf{STC}$ is $mathbb{NP}$-hard when $dge 8$. We provide a complete resolution of this variant, by showing that $mathsf{STC}$ remains $mathbb{NP}$-hard for each degree bound $dge 3$. (ii) In the decision version of $mathsf{STC}$, given an integer $K$, the goal is to determine whether the congestion of $G$ is at most $K$. We prove that this variant is polynomial-time solvable for $K$-edge-connected graphs.