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We investigate numerical semigroups generated by any quadratic sequence with initial term zero and an infinite number of terms. We find an efficient algorithm for calculating the Ap\'ery set, as well as bounds on the elements of the Ap\'ery…

Group Theory · Mathematics 2020-09-07 Mara Hashuga , Megan Herbine , Alathea Jensen

In this paper, we introduce and study the numerical semigroups generated by $\{a_1, a_2, \ldots \} \subset \mathbb{N}$ such that $a_1$ is the repunit number in base $b > 1$ of length $n > 1$ and $a_i - a_{i-1} = a\, b^{i-2},$ for every $i…

Commutative Algebra · Mathematics 2021-12-14 Manuel B. Branco , Isabel Colaço , Ignacio Ojeda

Given a numerical semigroup $S$ and a positive integer $p$, the quotient $\frac{S}{p}=\{x\in \mathbb{N} \mid px\in S\}$ also forms a numerical semigroup. In this paper, we first characterize the Ap\'ery set for a class of quotients of…

Combinatorics · Mathematics 2026-04-30 Feihu Liu

The greatest integer that does not belong to a numerical semigroup $S$ is called the Frobenius number of $S$, and finding the Frobenius number is called the Frobenius problem. In this paper, we solve the Frobenius problem for the numerical…

Number Theory · Mathematics 2025-10-06 WonTae Hwang , Kyunghwan Song

Let a, k, h, c be positive integers and d a non zero integer. Recall that a numerical generalized almost arithmetic semigroup S is a semigroup minimally generated by relatively prime positive integers a, ha + d, ha + 2d, . . . , ha + kd, c,…

Commutative Algebra · Mathematics 2026-01-13 Marcel Morales , Nguyen Thi Dung

Let $A=(a_1, a_2, \ldots, a_n)$ be a sequence of relative prime positive integers with $a_i\geq 2$. The Frobenius number $F(A)$ is the largest integer not belonging to the numerical semigroup $\langle A\rangle$ generated by $A$. The genus…

Number Theory · Mathematics 2026-04-13 Feihu Liu , Guoce Xin , Suting Ye , Jingjing Yin

This paper proposes a new, visual method to study numerical semigroups and the Frobenius problem. The method is based on building a so-called reduction graph, whose nodes usually correspond to monogenic semigroups, and whose edges can have…

Combinatorics · Mathematics 2018-09-05 Alexandru Pascadi

A numerical semigroup is irreducible if it cannot be obtained as intersection of two numerical semigroups containing it properly. If we only consider numerical semigroups with the same Frobenius number, that concept is generalized to atomic…

Group Theory · Mathematics 2021-01-27 Aureliano M. Robles-Pérez , José Carlos Rosales

Fixed two positive integers m and e, some algorithms for computing the minimal Frobenius number and minimal genus of the set of numerical semigroups with multiplicity m and embedding dimension e are provided. Besides, the semigroups where…

Commutative Algebra · Mathematics 2017-12-15 J. I. García-García , D. Marín-Aragón , M. A. Moreno-Frías , J. C. Rosales , A. Vigneron-Tenorio

We study the structure of the family of numerical semigroups with fixed multiplicity and Frobenius number. We give an algorithmic method to compute all the semigroups in this family. As an application we compute the set of all numerical…

Group Theory · Mathematics 2021-12-14 M. B. Branco , I. Ojeda , J. C. Rosales

Delorme suggested that the set of all complete intersection numerical semigroups can be computed recursively. We have implemented this algorithm, and particularized it to several subfamilies of this class of numerical semigroups: free and…

Combinatorics · Mathematics 2013-01-22 Abdallah Assi , Pedro A. García-Sánchez

This paper presents a new methodology to count the number of numerical semigroups of given genus or Frobenius number. We apply generating function tools to the bounded polyhedron that classifies the semigroups with given genus (or Frobenius…

Combinatorics · Mathematics 2009-12-23 Victor Blanco , Pedro A. Garcia-Sanchez , Justo Puerto

The so-called Frobenius number in the famous linear Diophantine problem of Frobenius is the largest integer such that the linear equation $a_1 x_1+\cdots+a_k x_k=n$ ($a_1,\dots,a_k$ are given positive integers with $\gcd(a_1,\dots,a_k)=1$)…

Combinatorics · Mathematics 2023-06-21 Takao Komatsu , Haotian Ying

In this paper we compute the Frobenius number of certain {\em Fibonacci numerical semigroups}, that is, numerical semigroups generated by a set of Fibonacci numbers, in terms of Fibonacci numbers.

Combinatorics · Mathematics 2007-05-23 J. M. Marin , J. Ramirez Alfonsin , M. P. Revuelta

A numerical semigroup is a sub-semigroup of the natural numbers that has a finite complement. The size of its complement is called the genus and the largest number in the complement is called its Frobenius number. We consider the set of…

Combinatorics · Mathematics 2020-08-10 Deepesh Singhal

Let consider $n$ natural numbers $a\_1 ,\ldots , a\_{n} $. Let $S$ be the numerical semigroup generated by $a\_1 ,\ldots , a\_{n} $. Set $A=K[t^{a\_1}, \ldots , t^{a\_n}]=K[{x\_1}, \ldots , {x\_n}]/I$. The aim of this paper is:…

Commutative Algebra · Mathematics 2015-12-21 Marcel Morales , Dung Nguyen Thi

The pseudo-Frobenius numbers of a numerical semigroup are those gaps of the numerical semigroup that are maximal for the partial order induced by the semigroup. We present a procedure to detect if a given set of integers is the set of…

Commutative Algebra · Mathematics 2019-02-20 M. Delgado , P. A. García-Sánchez , A. M. Robles-Pérez

In this paper we study numerical semigroups generated by three elements. We give a characterization of pseudo-symmetric numerical semigroups. Also, we will give a simple algorithm to get all the pseudo-symmetric numerical semigroups with…

Group Theory · Mathematics 2011-04-20 Hirokatsu Nari , Takahiro Numata , Kei-ichi Watanabe

We develop a geometric procedure for finding the Ap\'ery set of any numerical semigroup with embedding dimension four. Previous methods of comparable strength worked only for embedding dimension three or under very specific conditions. We…

Number Theory · Mathematics 2026-05-27 Kazimierz Chomicz

For given positive integers $a_1,a_2,\dots,a_k$ with $\gcd(a_1,a_2,\dots,a_k)=1$, the denumerant $d(n)=d(n;a_1,a_2,\dots,a_k)$ is the number of nonnegative solutions $(x_1,x_2,\dots,x_k)$ of the linear equation $a_1 x_1+a_2 x_2+\dots+a_k…

Number Theory · Mathematics 2023-06-28 Takao Komatsu , Haotian Ying
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