Caro, Y., Hansberg, A. (2019). Directed domination in oriented hypergraphs. Communications in Combinatorics and Optimization, (), -. doi: 10.22049/cco.2019.26466.1114

Yair Caro; Adriana Hansberg. "Directed domination in oriented hypergraphs". Communications in Combinatorics and Optimization, , , 2019, -. doi: 10.22049/cco.2019.26466.1114

Caro, Y., Hansberg, A. (2019). 'Directed domination in oriented hypergraphs', Communications in Combinatorics and Optimization, (), pp. -. doi: 10.22049/cco.2019.26466.1114

Caro, Y., Hansberg, A. Directed domination in oriented hypergraphs. Communications in Combinatorics and Optimization, 2019; (): -. doi: 10.22049/cco.2019.26466.1114

ErdH{o}s [On Sch"utte problem, Math. Gaz. 47 (1963)] proved that every tournament on $n$ vertices has a directed dominating set of at most $log (n+1)$ vertices, where $log$ is the logarithm to base $2$. He also showed that there is a tournament on $n$ vertices with no directed domination set of cardinality less than $log n - 2 log log n + 1$. This notion of directed domination number has been generalized to arbitrary graphs by Caro and Henning in [Directed domination in oriented graphs, Discrete Appl. Math. (2012) 160:7--8.]. However, the generalization to directed r-uniform hypergraphs seems to be rare. Among several results, we prove the following upper and lower bounds on $ora{Gamma}_{r-1}(H(n,r))$, the upper directed $(r-1)$-domination number of the complete $r$-uniform hypergraph on $n$ vertices $H(n,r)$, which is the main theorem of this paper:\ [c (ln n)^{frac{1}{r-1}} le ora{Gamma}_{r-1}(H(n,r)) le C ln n,] where $r$ is a positive integer and $c= c(r) > 0$ and $C = C(r) > 0$ are constants depending on $r$.