Polynomial-time algorithms for PATH COVER and PATH PARTITION on trees and graphs of bounded treewidth

November 10, 2025 Β· Declared Dead Β· πŸ› arXiv.org

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Authors Florent Foucaud, Atrayee Majumder, Tobias MΓΆmke, Aida Roshany-Tabrizi arXiv ID 2511.07160 Category cs.DS: Data Structures & Algorithms Cross-listed cs.DM Citations 0 Venue arXiv.org Last Checked 4 months ago
Abstract
In the PATH COVER problem, one asks to cover the vertices of a graph using the smallest possible number of (not necessarily disjoint) paths. While the variant where the paths need to be pairwise vertex-disjoint, which we call PATH PARTITION, is extensively studied, surprisingly little is known about PATH COVER. We start filling this gap by designing a linear-time algorithm for PATH COVER on trees. We show that PATH COVER can be solved in polynomial time on graphs of bounded treewidth using a dynamic programming scheme. It runs in XP time $n^{t^{O(t)}}$ (where $n$ is the number of vertices and $t$ the treewidth of the input graph) or $ΞΊ^{t^{O(t)}}n$ if there is an upper-bound $ΞΊ$ on the solution size. A similar algorithm gives an FPT $2^{O(t\log t)}n$ algorithm for PATH PARTITION, which can be improved to (randomized) $2^{O(t)}n$ using the Cut\&Count technique. These results also apply to the variants where the paths are required to be induced (i.e. chordless) and/or edge-disjoint.
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