Berge's Conjecture and Aharoni-Hartman-Hoffman's Conjecture for locally in-semicomplete digraphs

Abstract

Let k be a positive integer and let D be a digraph. A path partition of D is a set of vertex-disjoint paths which covers V(D). Its k-norm is defined as ΣP ∈ |V(P)|, k. A path partition is k-optimal if its k-norm is minimum among all path partitions of D. A partial k-coloring is a collection of k disjoint stable sets. A partial k-coloring is orthogonal to a path partition if each path P ∈ meets \|P|,k\ distinct sets of . Berge (1982) conjectured that every k-optimal path partition of D has a partial k-coloring orthogonal to it. A (path) k-pack of D is a collection of at most k vertex-disjoint paths in D. Its weight is the number of vertices it covers. A k-pack is optimal if its weight is maximum among all k-packs of D. A coloring of D is a partition of V(D) into stable sets. A k-pack is orthogonal to a coloring if each set C ∈ meets |C|, k paths of . Aharoni, Hartman and Hoffman (1985) conjectured that every optimal k-pack of D has a coloring orthogonal to it. A digraph D is semicomplete if every pair of distinct vertices of D is adjacent. A digraph D is locally in-semicomplete if, for every vertex v ∈ V(D), the in-neighborhood of v induces a semicomplete digraph. Locally out-semicomplete digraphs are defined similarly. In this paper, we prove Berge's and Aharoni-Hartman-Hoffman's Conjectures for locally in/out-semicomplete digraphs.