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Related papers: Large unavoidable subtournaments

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Let $\vec{T}_k$ be the transitive tournament on $k$ vertices. We show that every oriented graph on $n=4m$ vertices with minimum total degree $(11/12+o(1))n$ can be partitioned into vertex disjoint $\vec{T}_4$'s, and this bound is…

Combinatorics · Mathematics 2020-05-28 Louis DeBiasio , Allan Lo , Theodore Molla , Andrew Treglown

We study variants of Sidorenko's conjecture in tournaments, where new phenomena arise that do not have clear analogues in the setting of undirected graphs. We first consider oriented graphs that are systematically under-represented in…

Combinatorics · Mathematics 2024-02-14 Jacob Fox , Zoe Himwich , Nitya Mani , Yunkun Zhou

We prove the following new results. (a) Let $T$ be a regular tournament of order $2n+1\geq 11$ and $S$ a subset of $V(T)$. Suppose that $|S|\leq \frac{1}{2}(n-2)$ and $x$, $y$ are distinct vertices in $V(T)\setminus S$. If the subtournament…

Combinatorics · Mathematics 2021-12-17 Samvel Kh. Darbinyan , Gregory Z. Gutin

Let $T$ be a tournament with $n$ vertices $v_1,\ldots,v_n$. The skew-adjacency matrix of $T$ is the $n\times n$ zero-diagonal matrix $S_T = [s_{ij}]$ in which $s_{ij}=-s_{ji}=1$ if $ v_i $ dominates $ v_j $. We define the determinant…

Combinatorics · Mathematics 2024-08-14 Jing Zeng , Lihua You

A $k$-majority digraph is a directed graph created by combining $k$ individual rankings on the same ground set to form a consensus where edges point in the direction indicated by a strict majority of the rankings. The $k$-majority digraph…

Combinatorics · Mathematics 2011-09-29 Alexandra Ilic , Lilly Shen , Bobby Shen , Jian Shen

In 1981, Bermond and Thomassen conjectured that for any positive integer $k$, every digraph with minimum out-degree at least $2k-1$ admits $k$ vertex-disjoint directed cycles. In this short paper, we verify the Bermond-Thomassen conjecture…

Combinatorics · Mathematics 2023-11-23 Gregory Gutin , Wei Li , Shujing Wang , Anders Yeo , Yacong Zhou

Sullivan stated the conjectures: (1) every oriented graph $D$ has a vertex $x$ such that $d^{++}(x)\geq d^{-}(x)$; (2) every oriented graph $D$ has a vertex $x$ such that $d^{++}(x)+d^{+}(x)\geq 2d^{-}(x)$. In this paper, we prove that…

Combinatorics · Mathematics 2018-12-06 Ruijuan Li , Juanjuan Liang

We study a high-dimensional analog for the notion of an acyclic (aka transitive) tournament. We give upper and lower bounds on the number of $d$-dimensional $n$-vertex acyclic tournaments. In addition, we prove that every $n$-vertex…

Combinatorics · Mathematics 2013-12-06 Nati Linial , Avraham Morgenstern

The Erd\H{o}s-Hajnal conjecture states that for every given undirected graph $H$ there exists a constant $c(H)>0$ such that every graph $G$ that does not contain $H$ as an induced subgraph contains a clique or a stable set of size at least…

Combinatorics · Mathematics 2014-10-28 Krzysztof Choromanski

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

Thomason [$\textit{Trans. Amer. Math. Soc.}$ 296.1 (1986)] proved that every sufficiently large tournament contains Hamilton paths and cycles with all possible orientations, except possibly the consistently oriented Hamilton cycle. This…

Combinatorics · Mathematics 2024-07-22 Debsoumya Chakraborti , Jaehoon Kim , Hyunwoo Lee , Jaehyeon Seo

Linial and Morgenstern conjectured that, among all $n$-vertex tournaments with $d\binom{n}{3}$ cycles of length three, the number of cycles of length four is asymptotically minimized by a random blow-up of a transitive tournament with all…

Combinatorics · Mathematics 2019-09-16 Timothy F. N. Chan , Andrzej Grzesik , Daniel Kral , Jonathan A. Noel

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

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 a stable set of…

Combinatorics · Mathematics 2022-08-10 Soukaina Zayat , Salman Ghazal

An edge coloring of a tournament $T$ with colors $1,2,\dots,k$ is called \it $k$-transitive \rm if the digraph $T(i)$ defined by the edges of color $i$ is transitively oriented for each $1\le i \le k$. We explore a conjecture of the second…

Combinatorics · Mathematics 2014-03-03 Dömötör Pálvölgyi , András Gyárfás

A class of acyclic digraphs $\mathscr{C}$ is linearly unavoidable if there exists a constant $c$ such that every digraph $D\in \mathscr{C}$ is contained in all tournaments of order $c\cdot |V(D)|$. The class of all acyclic digraphs is not…

We show that for every positive integer $k$, any tournament can be partitioned into at most $2^{ck}$ $k$-th powers of paths. This result is tight up to the exponential constant. Moreover, we prove that for every $\varepsilon>0$ and every…

Combinatorics · Mathematics 2021-05-27 António Girão , Dániel Korándi , Alex Scott

Let \mathcal{F}_k denote the family of 2-edge-colored complete graphs on 2k vertices in which one color forms either a clique of order k or two disjoint cliques of order k. Bollob\'as conjectured that for every \epsilon>0 and positive…

Combinatorics · Mathematics 2008-04-06 Jacob Fox , Benny Sudakov

We prove that there exists $C>0$ such that any $(n+Ck)$-vertex tournament contains a copy of every $n$-vertex oriented tree with $k$ leaves, improving the previously best known bound of $n+O(k^2)$ vertices to give a result tight up to the…

Combinatorics · Mathematics 2022-07-06 Alistair Benford , Richard Montgomery

For an oriented graph $D$ and a set $X\subseteq V(D)$, the inversion of $X$ in $D$ is the digraph obtained by reversing the orientations of the edges of $D$ with both endpoints in $X$. The inversion number of $D$, $\textrm{inv}(D)$, is the…

Combinatorics · Mathematics 2024-01-23 Noga Alon , Emil Powierski , Michael Savery , Alex Scott , Elizabeth Wilmer