ACECR at Tarbiat Modares University
Iranian Journal of Mathematical Sciences and Informatics
1735-4463
2008-9473
8
1
2013
5
1
Derivations in Hyperrings and Prime Hyperrings
1
13
EN
A.
Asokkumar
10.7508/ijmsi.2013.01.001
In this paper we introduce derivations in Krasner hyperrings and derive some basic properties of derivations. We also prove that for a strongly differential hyperring $R$ and for any strongly differential hyperideal $I$ of $R,$ the factor hyperring $R/I$ is a strongly differential hyperring. Further we prove that a map $d: R rightarrow R$ is a derivation of a hyperring $R$ if and only if the induced map $varphi_d$ is a homomorphism.
Canonical hypergroup, hyperring, reduced hyperring, derivation, differential hyperring, differential hyperideal, hderivation.
http://ijmsi.ir/article-1-398-en.html
http://ijmsi.ir/article-1-398-en.pdf
ACECR at Tarbiat Modares University
Iranian Journal of Mathematical Sciences and Informatics
1735-4463
2008-9473
8
1
2013
5
1
Radical and Itâ€™s Applications in BCH-Algebras
15
29
EN
R.A.
Borzooei
O.
Zahiri
10.7508/ijmsi.2013.01.002
Let $X$ be a $BCH$-algebra and $I$ be an ideal of $X$. In this paper, we introduce the concept of $sqrt{I}$. We show that it is an ideal of $X$, when $I$ is closed ideal of $X$. Then we verify some useful properties of it. We prove that it is the ::::union:::: of all $k-$nil ideals of $I$. Moreover, if $I$ is a closed ideal of $X$, then $sqrt{I}$ is a closed translation ideal and so we can construct a quotient $BCH$-algebra. We prove this quotient is a P-semisimple $BCI$-algebra and so it is an abelian group. Then we use the concept of radical in order to construct the second and the third isomorphism theorems.
Ideal, radical, Quotient $BCH$-algebra, Maximal, Translation.
http://ijmsi.ir/article-1-399-en.html
http://ijmsi.ir/article-1-399-en.pdf
ACECR at Tarbiat Modares University
Iranian Journal of Mathematical Sciences and Informatics
1735-4463
2008-9473
8
1
2013
5
1
Bessel Subfusion Sequences and Subfusion Frames
31
38
EN
Z.
Amiri
M.A.
Dehghan
E.
Rahimi
L.
Soltani
10.7508/ijmsi.2013.01.003
Fusion frames are a generalized form of frames in Hilbert spaces. In the present paper we introduce Bessel subfusion sequences and subfusion frames and we investigate the relationship between their operation. Also, the definition of the orthogonal complement of subfusion frames and the definition of the completion of Bessel fusion sequences are provided and several results related with these notions are shown.
Frame, Fusion frame, Subfusion frame, Completion.
http://ijmsi.ir/article-1-400-en.html
http://ijmsi.ir/article-1-400-en.pdf
ACECR at Tarbiat Modares University
Iranian Journal of Mathematical Sciences and Informatics
1735-4463
2008-9473
8
1
2013
5
1
Approximation of Jordan homomorphisms in Jordan Banach algebras RETRACTED PAPER
39
47
EN
Madjid
Eshaghi Gordji
Najmeh
Karimipour Samani
Choonkil
Park
In this paper, we investigate the generalized Hyers-Ulam stability of Jordan homomorphisms in Jordan Banach algebras for the functional equation begin{align*} sum_{k=2}^n sum_{i_1=2}^ksum_{i_2=i_{1}+1}^{k+1}cdotssum_{i_n-k+1=i_{n-k}+1}^n fleft(sum_{i=1,i not=i_{1},cdots ,i_{n-k+1}}^n x_{i}-sum_{r=1}^{n-k+1} x_{i_{r}}right) + fleft(sum_{i=1}^{n}x_{i}right)-2^{n-1} f(x_{1}) =0, end{align*} where $n$ is an integer greater than 1.
This paper has been retracted because it is a self-plagiarism of already published paper.
http://ijmsi.ir/article-1-401-en.html
http://ijmsi.ir/article-1-401-en.pdf
ACECR at Tarbiat Modares University
Iranian Journal of Mathematical Sciences and Informatics
1735-4463
2008-9473
8
1
2013
5
1
T-Stability Approach to the Homotopy Perturbation Method for Solving Fredholm Integral Equations
49
58
EN
Hossein
Jafari
Maryam
Alipour
Maryam
Ghorbani
10.7508/ijmsi.2013.01.005
The homotopy perturbation method is a powerful device for solving a wide variety of problems arising in many scientific applications. In this paper, we investigate several integral equations by using T-stability of the Homotopy perturbation method investigates for solving integral equations. Some illustrative examples are presented to show that the Homotopy perturbation method is T-stable for solving Fredholm integral equations.
http://ijmsi.ir/article-1-402-en.html
http://ijmsi.ir/article-1-402-en.pdf
ACECR at Tarbiat Modares University
Iranian Journal of Mathematical Sciences and Informatics
1735-4463
2008-9473
8
1
2013
5
1
Cuts and overspill properties in models of bounded arithmetic
59
66
EN
Morteza
Moniri
S. Hosein
Sajjadi
10.7508/ijmsi.2013.01.006
In this paper we are concerned with cuts in models of Samuel Buss' theories of bounded arithmetic, i.e. theories like $S_{2}^i$ and $T_{2}^i$. In correspondence with polynomial induction, we consider a rather new notion of cut that we call p-cut. We also consider small cuts, i.e. cuts that are bounded above by a small element. We study the basic properties of p-cuts and small cuts. In particular, we prove some overspill and underspill properties for them.
Mathematical logic, bounded arithmetic, polynomial induction, cut, overspill, underspill.
http://ijmsi.ir/article-1-403-en.html
http://ijmsi.ir/article-1-403-en.pdf
ACECR at Tarbiat Modares University
Iranian Journal of Mathematical Sciences and Informatics
1735-4463
2008-9473
8
1
2013
5
1
Some Properties of Ideal Extensions in Ternary Semigroups
67
74
EN
Aiyared
Iampan
10.7508/ijmsi.2013.01.007
A concept of ideal extensions in ternary semigroups is introduced and throughly investigated. The connection between an ideal extensions and semilattice congruences in ternary semigroups is considered.
Ternary semigroup, Ideal extension, Semilattice congruence.
http://ijmsi.ir/article-1-404-en.html
http://ijmsi.ir/article-1-404-en.pdf
ACECR at Tarbiat Modares University
Iranian Journal of Mathematical Sciences and Informatics
1735-4463
2008-9473
8
1
2013
5
1
$(odot, oplus)$-Derivations and $(ominus, odot)$-Derivations on $MV$-algebras
75
90
EN
Sh.
Ghorbani
L.
Torkzadeh
S.
Motamed
10.7508/ijmsi.2013.01.008
In this paper, we introduce the notions of $(odot, oplus)$-derivations and $(ominus, odot)$-derivations for $MV$-algebras and discuss some related results. We study the connection between these derivations on an $MV$-algebra $A$ and the derivations on its boolean center. We characterize the isotone $(odot, oplus)$-derivations and prove that $(ominus, odot)$-derivations are isotone. Finally we determine the relationship between $(odot, oplus)$-derivation and $(ominus, odot)$-derivation for $MV$-algebras.
MV - algebra, Derivation, Boolean algebra, Fix point, Ideal.
http://ijmsi.ir/article-1-405-en.html
http://ijmsi.ir/article-1-405-en.pdf
ACECR at Tarbiat Modares University
Iranian Journal of Mathematical Sciences and Informatics
1735-4463
2008-9473
8
1
2013
5
1
Application of Collocation Method in Finding Roots
91
104
EN
M. R.
Eslahchi
M.
Parvizi
10.7508/ijmsi.2013.01.009
In this paper we present a new method to find simple or multiple roots of functions in a finite interval. In this method using bisection method we can find an interval such that this function is one to one on it, thus we can transform problem of finding roots in this interval into an ordinary differential equation with boundary conditions. By solving this equation using collocation method we can find a root for given function in the special interval. We also present convergence analysis of the new method. Finally some examples are given to show efficiency of the presented method.
Finding root, Collocation method, Jacobi polynomial, Boundary value equation, Convergence.
http://ijmsi.ir/article-1-406-en.html
http://ijmsi.ir/article-1-406-en.pdf
ACECR at Tarbiat Modares University
Iranian Journal of Mathematical Sciences and Informatics
1735-4463
2008-9473
8
1
2013
5
1
On Diameter of Line Graphs
105
109
EN
Harishchandra S.
Ramane
Ivan
Gutman
Asha B.
Ganagi
10.7508/ijmsi.2013.01.010
The diameter of a connected graph $G$, denoted by $diam(G)$, is the maximum distance between any pair of vertices of $G$. Let $L(G)$ be the line graph of $G$. We establish necessary and sufficient conditions under which for a given integer $k geq 2$, $diam(L(G)) leq k$.
Line graph, Diameter (of graph), Distance (in graph).
http://ijmsi.ir/article-1-407-en.html
http://ijmsi.ir/article-1-407-en.pdf