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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

We show how to generate an expression for the number of k-line Latin rectangles for any k. The computational complexity of the resulting expression, as measured by the number of additions and multiplications required to evaluate it, is on…

Combinatorics · Mathematics 2007-05-23 Peter G. Doyle

This paper deals with distinct computational methods to enumerate the set $\mathrm{PLR}(r,s,n;m)$ of $r \times s$ partial Latin rectangles on $n$ symbols with $m$ non-empty cells. For fixed $r$, $s$, and $n$, we prove that the size of this…

Combinatorics · Mathematics 2020-08-10 Raúl M. Falcón , Rebecca J. Stones

A $k$-plex of a latin square is a collection of cells representing each row, column, and symbol precisely $k$ times. The classic case of $k=1$ is more commonly known as a transversal. We introduce the concept of a $k$-weight, an integral…

Combinatorics · Mathematics 2010-08-03 Kyle Pula

This paper studies the left (right) middle translations on finite involutory latin quandles and their representations. It also shows that a left involutory latin quandle of odd order n can be constructed from a cyclic group of odd order by…

Group Theory · Mathematics 2022-07-08 Abednego Orobosa Isere

Let P be a polygon whose vertices have been colored (labeled) cyclically with the numbers 1,2,...,c. Motivated by conjectures of Propp, we are led to consider partitions of P into k-gons which are proper in the sense that each k-gon…

Combinatorics · Mathematics 2007-05-23 Bruce Sagan

A latin hypercuboid of order $N$ is an $N\times...\times N\times k$ array filled with symbols from the set $\{0,...,N-1\} $ in such a way that every symbol occurs at most once in every line. If $k=N$, such an array is a latin hypercube. We…

Combinatorics · Mathematics 2011-01-20 Vladimir N. Potapov

We give a computer-based proof of the following fact: If a square is divided into seven or nine convex polygons, congruent among themselves, then the tiles are rectangles.

Computational Geometry · Computer Science 2021-11-24 Gerardo L. Maldonado , Edgardo Roldán-Pensado

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

In 1782, Euler conjectured that no Latin square of order $n\equiv 2\; \textrm{mod}\; 4$ has a decomposition into transversals. While confirmed for $n=6$ by Tarry in 1900, Bose, Parker, and Shrikhande constructed counterexamples in 1960 for…

Combinatorics · Mathematics 2025-01-10 Candida Bowtell , Richard Montgomery

The family of cycle completable graphs has several cryptomorphic descriptions, the equivalence of which has heretofore been proven by a laborious implication-cycle that detours through a motivating matrix completion problem. We give a…

Combinatorics · Mathematics 2023-09-06 Maria Chudnovsky , Ian Malcolm Johnson McInnis

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

In this paper we study collections of mutually nearly orthogonal Latin squares ($\text{MNOLS}$), which come from a modification of the orthogonal condition for mutually orthogonal Latin squares. In particular, we find the maximum $\mu$ such…

Combinatorics · Mathematics 2018-11-06 F. Demirkale , D. M. Donovan , J. I. Kokkala , T. G. Marbach

The diagonals of a quadrilateral form four component triangles (in two ways). For each of various shaped quadrilaterals, we examine 1000 triangle centers located in these four component triangles. Using a computer, we determine when the…

History and Overview · Mathematics 2022-05-03 Stanley Rabinowitz , Ercole Suppa

Computing the autotopism group of a partial Latin rectangle can be performed in a variety of ways. This pilot study has two aims: (a) to compare these methods experimentally, and (b) to identify the design goals one should have in mind for…

Combinatorics · Mathematics 2021-06-18 Rebecca J. Stones , Raúl M. Falcón , Daniel Kotlar , Trent G. Marbach

In an earlier paper by three of the present authors and Csaba Schneider, it was shown that, for $m\ge2$, a set of $m+1$ partitions of a set $\Omega$, any $m$ of which are the minimal non-trivial elements of a Cartesian lattice, either form…

Combinatorics · Mathematics 2022-10-14 R. A. Bailey , Peter J. Cameron , Michael Kinyon , Cheryl E. Praeger

An intercalate in a Latin square is a $2\times2$ Latin subsquare. Let $N$ be the number of intercalates in a uniformly random $n\times n$ Latin square. We prove that asymptotically almost surely…

Combinatorics · Mathematics 2017-01-18 Matthew Kwan , Benny Sudakov

A partial Latin square of order $n$ can be represented by a $3$-dimensional chess-board of size $n\times n\times n$ with at most $n^2$ non-attacking rooks. In Latin squares, a subsystem and its most distant mate together have as many rooks…

Combinatorics · Mathematics 2022-08-15 Béla Jónás

In this paper, we find criteria for when cyclic cubic and cyclic quartic fields have well-rounded ideal lattices. We show that every cyclic cubic field has at least one well-rounded ideal. We also prove that there exist families of cyclic…

Number Theory · Mathematics 2024-02-14 Dat T. Tran , Nam H. Le , Ha T. N. Tran

Let $T = (T^{\textstyle \ast}, T^{\scriptscriptstyle \triangle})$ be a spherical latin bitrade. With each $a=(a_1,a_2,a_3)\in T^{\textstyle \ast}$ associate a set of linear equations $\eq(T,a)$ of the form $b_1+b_2=b_3$, where $b =…

Combinatorics · Mathematics 2009-07-13 Ales Drapal , Carlo Hamalainen , Viteslav Kala
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