English
Related papers

Related papers: Latin transversals of rectangular arrays

200 papers

A Latin square of side n defines in a natural way a finite geometry on 3n points, with three lines of size n and n^2 lines of size 3. A Latin square of side n with a transversal similarly defines a finite geometry on 3n+1 points, with three…

Combinatorics · Mathematics 2011-08-26 Lou M. Pretorius , Konrad J. Swanepoel

The chromatic number of a Latin square is the least number of partial transversals which cover its cells. This is just the chromatic number of its associated Latin square graph. Although Latin square graphs have been widely studied as…

Combinatorics · Mathematics 2016-10-31 Nazli Besharati , Luis Goddyn , E. S. Mahmoodian , M. Mortezaeefar

We consider the problem of constructing Latin cubes subject to the condition that some symbols may not appear in certain cells. We prove that there is a constant $\gamma > 0$ such that if $n=2t$ and $A$ is a $3$-dimensional $n\times n\times…

Combinatorics · Mathematics 2019-04-17 Carl Johan Casselgren , Lan Anh Pham

We say that a diagonal in an array is {\em $\lambda$-balanced} if each entry occurs $\lambda$ times. Let $L$ be a frequency square of type $F(n;\lambda^m)$; that is, an $n\times n$ array in which each entry from $\{1,2,\dots ,m\}$ occurs…

Combinatorics · Mathematics 2018-02-06 Nicholas Cavenagh , Adam Mammoliti

We are seeking a sufficient condition that forces a transversal in a generalized Latin square. A generalized Latin square of order $n$ is equivalent to a proper edge-coloring of $K_{n,n}$. A transversal corresponds to a multicolored perfect…

Combinatorics · Mathematics 2017-01-31 János Barát , Zoltán Lóránt Nagy

Let $m \leq n \leq k$. An $m \times n \times k$ 0-1 array is a Latin box if it contains exactly $mn$ ones, and has at most one $1$ in each line. As a special case, Latin boxes in which $m = n = k$ are equivalent to Latin squares. Let…

Combinatorics · Mathematics 2019-02-12 Zur Luria , Michael Simkin

We (1) determine the number of Latin rectangles with 11 columns and each possible number of rows, including the Latin squares of order~11, (2) answer some questions of Alter by showing that the number of reduced Latin squares of order $n$…

Combinatorics · Mathematics 2009-09-14 Brendan D. McKay , Ian M. Wanless

A Latin hypercuboid of order $n$ is a $d$-dimensional matrix of dimensions $n\times n\times\cdots\times n\times k$, with symbols from a set of cardinality $n$ such that each symbol occurs at most once in each axis-parallel line. If $k=n$…

Combinatorics · Mathematics 2025-02-14 Candida Bowtell , Alice Devillers , André Kündgen , Padraig Ó Catháin , Ian M. Wanless

Akbari and Alipour conjectured that any Latin array of order $n$ with at least $n^2/2$ symbols contains a transversal. We confirm this conjecture for large $n$, and moreover, we show that $n^{399/200}$ symbols suffice.

Combinatorics · Mathematics 2020-04-01 Peter Keevash , Liana Yepremyan

A Latin square $L(n,k)$ is a square of order $n$ with its entries colored with $k$ colors so that all the entries in a row or column have different colors. Let $d(L(n,k))$ be the minimal number of colored entries of an $n \times n$ square…

Combinatorics · Mathematics 2007-05-23 Karola Meszaros

Let $P$ be a partial latin square of prime order $p>7$ consisting of three cyclically generated transversals. Specifically, let $P$ be a partial latin square of the form: \[ P=\{(i,c+i,s+i),(i,c'+i,s'+i),(i,c''+i,s''+i)\mid 0 \leq i< p\} \]…

Combinatorics · Mathematics 2007-12-04 Nicholas J. Cavenagh , Carlo Hamalainen , Adrian M. Nelson

We prove a general result on completing objects similar to Latin rectangles in which the number of occurrences of each symbol is prescribed, each cell contains multiple symbols, and no cell contains repeated symbols. This generalizes…

Combinatorics · Mathematics 2025-09-16 Amin Bahmanian

A (partial) Latin square is a table of multiplication of a (partial) quasigroup. Multiplication of a (partial) quasigroup may be considered as a set of triples. We give a necessary and sufficient condition when a set of triples is a…

Combinatorics · Mathematics 2007-05-23 L. Yu. Glebsky , C. J. Rubio

A $d$-dimensional Latin hypercube of order $n$ is a $d$-dimensional array containing symbols from a set of cardinality $n$ with the property that every axis-parallel line contains all $n$ symbols exactly once. We show that for $(n, d)…

Combinatorics · Mathematics 2023-10-04 Jack Allsop , Ian M. Wanless

Consider a partial Latin square $P$ where the first two rows and first three columns are completely filled, and every other cell of $P$ is empty. It has been conjectured that all such partial Latin squares of order at least $8$ are…

Combinatorics · Mathematics 2020-05-19 Carl Johan Casselgren , Herman Göransson

A Latin square of order $n$ is an $n \times n$ array filled with $n$ symbols such that each symbol appears only once in every row or column and a transversal is a collection of cells which do not share the same row, column or symbol. The…

Combinatorics · Mathematics 2020-05-26 Peter Keevash , Alexey Pokrovskiy , Benny Sudakov , Liana Yepremyan

Let A be an m \times n matrix in which the entries of each row are all distinct. Drisko showed that, if m \ge 2n-1, then A has a transversal: a set of n distinct entries with no two in the same row or column. We generalize this to matrices…

Combinatorics · Mathematics 2007-05-23 Glenn G. Chappell

We derive necessary and sufficient conditions for there to exist a latin square of order $n$ containing two subsquares of order $a$ and $b$ that intersect in a subsquare of order $c$. We also solve the case of two disjoint subsquares. We…

Combinatorics · Mathematics 2015-09-21 Joshua M. Browning , Petr Vojtěchovský , Ian M. Wanless

A Latin square of order $n$ is an $n\times n$ matrix in which each row and column contains each of $n$ symbols exactly once. For $\epsilon>0$, we show that with high probability a uniformly random Latin square of order $n$ has no proper…

Combinatorics · Mathematics 2024-05-08 Michael J. Gill , Adam Mammoliti , Ian M. Wanless

A defining set of a Latin square is a partially filled-in Latin square which completes to no other Latin square of the same order. We introduce the concept of a $k$-strong defining set, in which if less than $k$ entries are deleted, the…

Combinatorics · Mathematics 2026-05-28 Richard Bean , Nicholas Cavenagh