English
Related papers

Related papers: On Layer-Rainbow Latin Cubes Containing Layer-Rain…

200 papers

Given two integers $m$ and $n$ with $m\leq n$, a Latin rectangle of size $m\times n$ is a bi-dimensional array with $m$ rows and $n$ columns filled with symbols from an alphabet with $n$ symbols, such that each row contains a permutation of…

Combinatorics · Mathematics 2015-09-03 N. Astromujoff , M. Matamala

A critical set in an $n \times n$ array is a set $C$ of given entries, such that there exists a unique extension of $C$ to an $n\times n$ Latin square and no proper subset of $C$ has this property. For a Latin square $L$, $\scs{L}$ denotes…

Combinatorics · Mathematics 2007-05-23 Mahya Ghandehari , Hamed Hatami , Ebadollah S. Mahmoodian

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

It is established that the logarithm of the number of latin $d$-cubes of order $n$ is $\Theta(n^{d}\ln n)$ and the logarithm of the number of pairs of orthogonal latin squares of order $n$ is $\Theta(n^2\ln n)$. Similar estimations are…

Combinatorics · Mathematics 2018-04-27 Vladimir N. Potapov

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

A pair of orthogonal latin cubes of order $q$ is equivalent to an MDS code with distance $3$ or to an ${\rm OA}_1(3,5,q)$ orthogonal array. We construct pairs of orthogonal latin cubes for a sequence of previously unknown orders…

Combinatorics · Mathematics 2023-03-30 Vladimir N. Potapov

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

Latin hypercube designs achieve optimal univariate stratifications and are useful for computer experiments. Sliced Latin hypercube designs are Latin hypercube designs that can be partitioned into smaller Latin hypercube designs. In this…

Statistics Theory · Mathematics 2019-05-09 Jin Xu , Xu He , Xiaojun Duan , Zhengming Wang

Until now the problem counting Latin rectangles m x n has been solved with an explicit formula for m = 2, 3 and 4 only. In the present paper an explicit formula is provided for the calculation of the number of Latin rectangles for any order…

Combinatorics · Mathematics 2007-11-06 Aurelio de Gennaro

We answer a question posed by D\'enes and Keedwell that is equivalent to the following. For each order $n$ what is the smallest size of a partial latin square that cannot be embedded into the Cayley table of any group of order $n$? We also…

Combinatorics · Mathematics 2017-01-11 Ian M. Wanless , Bridget S. Webb

We define a cover of a Latin square to be a set of entries that includes at least one representative of each row, column and symbol. A cover is minimal if it does not contain any smaller cover. A partial transversal is a set of entries that…

Combinatorics · Mathematics 2020-04-30 Darcy Best , Trent Marbach , Rebecca J. Stones , Ian M. Wanless

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

The well-known quadrangle criterion states that a latin square is isotopic to the Cayley table of a group if and only if all quadrangles spanned by the same triple of symbols coincide on the fourth symbol. Gowers and Long (2020)…

Combinatorics · Mathematics 2026-04-02 Anna A. Taranenko

This paper provides an in-depth analysis of how computational algebraic geometry can be used to deal with the problem of counting and classifying $r\times s$ partial Latin rectangles based on $n$ symbols of a given size, shape, type or…

Combinatorics · Mathematics 2019-01-08 Raúl M. Falcón

The inner distance of a Latin square was defined by myself and six others during an REU in the Summer of 2020 at Moravian College. Since then, I have been curious about its possible connections to other combinatorial mathematics. The inner…

Combinatorics · Mathematics 2021-12-30 Omar Aceval Garcia

Explicit algorithms are developed for constructing odd order n pandiagonal latin cubes in 3 and 4 dimensions, and these are used to construct pandiagonal magic cubes and 4 dimensional hypercubes, respectively. It is established that these…

Combinatorics · Mathematics 2007-05-23 Solomon Gartenhaus

A frequency $n$-cube $F^n(4;2,2)$ is an $n$-dimensional $4$-by-...-by-$4$ array filled by $0$s and $1$s such that each line contains exactly two $1$s. We classify the frequency $4$-cubes $F^4(4;2,2)$, find a testing set of size $25$ for…

Combinatorics · Mathematics 2023-02-21 Minjia Shi , Shukai Wang , Xiaoxiao Li , Denis S. Krotov

A $k \times n$ partial Latin rectangle is \textit{$C$-sparse} if the number of nonempty entries in each row and column is at most $C$ and each symbol is used at most $C$ times. We prove that the probability a uniformly random $k \times n$…

Combinatorics · Mathematics 2023-11-10 Alexander Divoux , Tom Kelly , Camille Kennedy , Jasdeep Sidhu

A Latin tableau of shape $\lambda$ and type $\mu$ is a Young diagram of shape $\lambda$ in which each box contains a single positive integer, with no repeated integers in any row or column, and the $i$th most common integer appearing…

Combinatorics · Mathematics 2024-08-09 Timothy Y. Chow , Mark G. Tiefenbruck

For $\mu$ given latin squares of order $n$, they have {\sf $k$ intersection} when they have $k$ identical cells and $n^2-k$ cells with mutually different entries. For each $n\geq 1$ the set of integers $k$ such that there exist $\mu$ latin…

Combinatorics · Mathematics 2015-09-17 P. Adams , E. S. Mahmoodian , H. Minooei , M. Mohammadi Nevisi