On Orthogonal Vector Edge Coloring

Abstract

Given a graph G and a positive integer d, an orthogonal vector d-coloring of G is an assignment f of vectors of Rd to V(G) in such a way that adjacent vertices receive orthogonal vectors. The orthogonal chromatic number of G, denoted by v(G), is the minimum d for which G admits an orthogonal vector d-coloring. This notion has close ties with the notions of Lov\'asz Theta Function, quantum chromatic number, and many other problems, and even though this and related metrics have been extensively studied over the years, we have found that there is a gap in the knowledge concerning the edge version of the problem. In this article, we discuss this version and its relation with other insteresting known facts, and pose a question about the orthogonal chromatic index of cubic graphs.