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We consider the transformation reversing all arcs of a subset $X$ of the vertex set of a tournament $T$. The \emph{index} of $T$, denoted by $i(T)$, is the smallest number of subsets that must be reversed to make $T$ acyclic. It turns out…

Combinatorics · Mathematics 2010-07-14 Houmem Belkhechine , Moncef Bouaziz , Imed Boudabbous , Maurice Pouzet

We prove that for every fixed $k$, the number of occurrences of the transitive tournament $Tr_k$ of order $k$ in a tournament $T_n$ on $n$ vertices is asymptotically minimized when $T_n$ is random. In the opposite direction, we show that…

Combinatorics · Mathematics 2015-01-19 Leonardo Nagami Coregliano , Alexander A. Razborov

A tournament is called locally transitive if the outneighbourhood and the inneighbourhood of every vertex are transitive. Equivalently, a tournament is locally transitive if it avoids the tournaments $W_4$ and $L_4$, which are the only…

Combinatorics · Mathematics 2015-04-16 Leonardo Nagami Coregliano

The celebrated Erd\"{o}s-Hajnal conjecture states that for every undirected graph $H$ there exists $ \epsilon(H) > 0 $ such that every undirected graph on $ n $ vertices that does not contain $H$ as an induced subgraph contains a clique or…

Combinatorics · Mathematics 2022-08-11 Soukaina Zayat , Salman Ghazal

Sumner's universal tournament conjecture states that any tournament on $2n-2$ vertices contains a copy of any directed tree on $n$ vertices. We prove an asymptotic version of this conjecture, namely that any tournament on $(2+o(1))n$…

Combinatorics · Mathematics 2015-09-16 Daniela Kühn , Richard Mycroft , Deryk Osthus

A vertex $x$ in a tournament $T$ is called a king if for every vertex $y$ of $T$ there is a directed path from $x$ to $y$ of length at most 2. It is not hard to show that every vertex of maximum out-degree in a tournament is a king.…

Data Structures and Algorithms · Computer Science 2018-01-16 Gregory Gutin , George B. Mertzios , Felix Reidl

We determine the inducibility of all tournaments with at most $4$ vertices together with the extremal constructions. The $4$-vertex tournament containing an oriented $C_3$ and one source vertex has a particularly interesting extremal…

Combinatorics · Mathematics 2022-12-22 Dalton Burke , Bernard Lidický , Florian Pfender , Michael Phillips

Given non-negative integers $n_{i}$ and $\alpha_{i}$ with $0 \leq \alpha_{i} \leq n_i$ $(i=1,2,...,k)$, an $[\alpha_{1},\alpha_{2},...,\alpha_{k}]$-$k$-partite hypertournament on $\sum_{1}^{k}n_{i}$ vertices is a $(k+1)$-tuple…

Discrete Mathematics · Computer Science 2015-03-17 Shariefuddin Pirzada , Guofei Zhou , Antal Iványi

This paper is a survey of results and problems related to the following question: is it true that if G is a tournament with sufficiently large chromatic number, then G has two vertex-disjoint subtournaments A,B, both with large chromatic…

Combinatorics · Mathematics 2024-09-25 Tung Nguyen , Alex Scott , Paul Seymour

Real world tournaments are almost always intransitive. Recent works have noted that parametric models which assume $d$ dimensional node representations can effectively model intransitive tournaments. However, nothing is known about the…

Computer Science and Game Theory · Computer Science 2021-10-13 Arun Rajkumar , Vishnu Veerathu , Abdul Bakey Mir

The theory of tournament limits and tournament kernels (often called graphons) is developed by extending common notions for finite tournaments to this setting; in particular we study transitivity and irreducibility of limits and kernels. We…

Combinatorics · Mathematics 2017-12-11 Erik Thörnblad

In an earlier paper the first two authors have shown that self-complementary graphs can always be oriented in such a way that the union of the oriented version and its isomorphically oriented complement gives a transitive tournament. We…

Combinatorics · Mathematics 2018-06-05 Attila Sali , Gábor Simonyi , Gábor Tardos

Let $TT_k$ denote the transitive tournament on $k$ vertices. Let $TT(h,k)$ denote the graph obtained from $TT_k$ by replacing each vertex with an independent set of size $h \geq 1$. The following result is proved: Let $c_2=1/2$, $c_3=5/6$…

Combinatorics · Mathematics 2007-05-23 Raphael Yuster

A 3-tournament is a complete 3-uniform hypergraph where each edge has a special vertex designated as its tail. A vertex set $X$ dominates $T$ if every vertex not in $X$ is contained in an edge whose tail is in $X$. The domination number of…

Combinatorics · Mathematics 2016-02-05 Dániel Korándi , Benny Sudakov

Sumner's universal tournament conjecture states that every $(2n-2)$-vertex tournament should contain a copy of every $n$-vertex oriented tree. If we know the number of leaves of an oriented tree, or its maximum degree, can we guarantee a…

Combinatorics · Mathematics 2024-10-14 Alistair Benford , Richard Montgomery

Tournaments are orientations of the complete graph, and the directed Ramsey number $R(k)$ is the minimum number of vertices a tournament must have to be guaranteed to contain a transitive subtournament of size $k$, which we denote by…

Combinatorics · Mathematics 2022-05-19 David Neiman , John Mackey , Marijn Heule

For a fixed finite set of finite tournaments ${\mathcal F}$, the ${\mathcal F}$-free orientation problem asks whether a given finite undirected graph $G$ has an $\mathcal F$-free orientation, i.e., whether the edges of $G$ can be oriented…

Combinatorics · Mathematics 2024-09-02 Manuel Bodirsky , Santiago Guzmán-Pro

A tournament is an orientation of a complete graph. We say that a vertex $x$ in a tournament $\vec T$ controls another vertex $y$ if there exists a directed path of length at most two from $x$ to $y$. A vertex is called a king if it…

Combinatorics · Mathematics 2022-09-28 Oded Lachish , Felix Reidl , Chhaya Trehan

Sumner's universal tournament conjecture states that any tournament on $2n-2$ vertices contains any directed tree on $n$ vertices. In this paper we prove that this conjecture holds for all sufficiently large $n$. The proof makes extensive…

Combinatorics · Mathematics 2015-09-15 Daniela Kühn , Richard Mycroft , Deryk Osthus

A $k$-tournament $H$ on $n$ vertices is a pair $(V, A)$ for $2\leq k\leq n$, where $V(H)$ is a set of vertices, and $A(H)$ is a set of all possible $k$-tuples of vertices, such that for any $k$-subset $S$ of $V$, $A(H)$ contains exactly one…

Combinatorics · Mathematics 2024-01-25 Jiangdong Ai , Qiming Dai , Qiwen Guo , Yingqi Hu , Changxin Wang