arXiv:math/0207020 Abstract

arXiv:math/0207020 [math.CO]Abstract References Reviews Resources

Computing roots of directed graphs is graph isomorphism hard

Published 2002-07-02Version 1

The k-th power D^k of a directed graph D is defined to be the directed graph on the vertices of D with an arc from a to b in D^k iff one can get from a to b in D with exactly k steps. This notion is equivalent to the k-fold composition of binary relations or k-th powers of Boolean matrices. A k-th root of a directed graph D is another directed graph R with R^k = D. We show that for each k >= 2, computing a k-th root of a directed graph is at least as hard as the graph isomorphism problem.

Comments: 15 pages, 4 figures

Categories: math.CO

Subjects: 05C12, 05C20, 05C60, 68Q17, 05C50, 15A23, 06E99

Keywords: directed graph, graph isomorphism hard, computing roots, k-th power, k-th root

Related articles: Most relevant | Search more

arXiv:1012.1231 [math.CO] (Published 2010-12-06, updated 2011-02-22)

A sufficient condition for the existence of an anti-directed 2-factor in a directed graph

Ajit A. Diwan, Josh B. Frye, Michael J. Plantholt, Shailesh K. Tipnis

arXiv:2108.10948 [math.CO] (Published 2021-08-24)

Homomorphism complexes, reconfiguration, and homotopy for directed graphs

Anton Dochtermann, Anurag Singh

arXiv:1305.2986 [math.CO] (Published 2013-05-14, updated 2014-10-03)