Science and Research Branch, Islamic Azad University, Tehran, Iran
Website: ijim.srbiau.ac.ir
Address: Science and Research Branch, Shohada Hesarak Blvd, Daneshgah Square, Sattari Highway, Tehran, Iran.
Email: ijim@srbiau.ac.ir
Tel:+98(44)32352053, +98(914)3897371.
Fax:+98(44)32722660International Journal of Industrial Mathematics2008-562110420181101Multi-Objective Location-Routing Model With Multiple Transportation Modes For Designing Relief Networks Under Uncertainty31532913124ENE.HaghiDepartment of Mathematics, Robat Karim Branch, Islamic Azad University, Robat Karim, Iran.Journal Article20180418A three-level relief chain including a number of suppliers in fixed locations, candidate distribution centers and affected areas at certain points are considered. A mixed integer nonlinear programming model is proposed for open transportation location routing problem by considering split delivery of demand. To solve a realistic problem, foregoing parameters are considered as fuzzy in our proposed mode and for the problem of the proposed model, fuzzy multi-objective planning used.https://ijim.srbiau.ac.ir/article_13124_aab8dd75cf7de8ca777ce93715903b4b.pdfScience and Research Branch, Islamic Azad University, Tehran, Iran
Website: ijim.srbiau.ac.ir
Address: Science and Research Branch, Shohada Hesarak Blvd, Daneshgah Square, Sattari Highway, Tehran, Iran.
Email: ijim@srbiau.ac.ir
Tel:+98(44)32352053, +98(914)3897371.
Fax:+98(44)32722660International Journal of Industrial Mathematics2008-562110420181101A New Method for Optimization of Inefficient Cost Units In The Presence of Undesirable Outputs33133813125ENS.SadriDepartment of Mathematics, Karaj Branch, Islamic Azad University, Karaj, IranM.Rostamy MalkhalifehDepartment of Mathematics, Science and Research Branch, Islamic Azad University, Tehran, Iran.0000-0000-0000-0000N.ShojaDepartment of Mathematics, Firuozkooh Branch, Islamic Azad University, Firuozkooh, IranJournal Article20180225Undesirable Output such as pollution and waste may occasionally occur in the production process, which should be reduced to improve efficiency. In the present study, cost efficiency model is presented in the presence of undesirable output by Inverse Linear Programming, and the desirable cost is calculated in order to achieve cost efficiency for units that are technically efficient but not cost-efficient.https://ijim.srbiau.ac.ir/article_13125_a16db3cf9b2aeb6beae24d0cac01839f.pdfScience and Research Branch, Islamic Azad University, Tehran, Iran
Website: ijim.srbiau.ac.ir
Address: Science and Research Branch, Shohada Hesarak Blvd, Daneshgah Square, Sattari Highway, Tehran, Iran.
Email: ijim@srbiau.ac.ir
Tel:+98(44)32352053, +98(914)3897371.
Fax:+98(44)32722660International Journal of Industrial Mathematics2008-562110420181101A Recurrent Neural Network for Solving Strictly Convex Quadratic Programming Problems33934713126ENA.GhomashiDepartment of Mathematics, Kermanshah Branch, Islamic Azad University, Kermanshah, Iran.0000-0002-1258-1688M.AbbasiDepartment of Mathematics, Kermanshah Branch, Islamic Azad University, Kermanshah, Iran.Journal Article20170525In this paper we present an improved neural network to solve strictly convex quadratic programming(QP) problem. The proposed model is derived based on a piecewise equation correspond to optimality condition of convex (QP) problem and has a lower structure complexity respect to the other existing neural network model for solving such problems. In theoretical aspect, stability and global convergence of the proposed neural network is proved.https://ijim.srbiau.ac.ir/article_13126_8f3673e912e93b7791bf86268edc4632.pdfScience and Research Branch, Islamic Azad University, Tehran, Iran
Website: ijim.srbiau.ac.ir
Address: Science and Research Branch, Shohada Hesarak Blvd, Daneshgah Square, Sattari Highway, Tehran, Iran.
Email: ijim@srbiau.ac.ir
Tel:+98(44)32352053, +98(914)3897371.
Fax:+98(44)32722660International Journal of Industrial Mathematics2008-562110420181101The Combined Reproducing Kernel Method and Taylor Series for Handling Fractional Differential Equations34935813016ENA.AlvandiDepartment of Mathematics, Hamedan Branch, Islamic Azad University, Hamedan, Iran.M.ParipourDepartment of Computer Engineering and Information Technology, Hamedan University of Technology, Hamedan, Iran.Journal Article20160328This paper presents the numerical solution for a class of fractional differential equations. The fractional derivatives are described in the Caputo \cite{1} sense. We developed a reproducing kernel method (RKM) to solve fractional differential equations in reproducing kernel Hilbert space. This method cannot be used directly to solve these equations, so an equivalent transformation is made by using Taylor series. Some numerical examples are studied to demonstrate the accuracy of the given method.https://ijim.srbiau.ac.ir/article_13016_10b5c598cc2bffeaed85025a82a7794a.pdfScience and Research Branch, Islamic Azad University, Tehran, Iran
Website: ijim.srbiau.ac.ir
Address: Science and Research Branch, Shohada Hesarak Blvd, Daneshgah Square, Sattari Highway, Tehran, Iran.
Email: ijim@srbiau.ac.ir
Tel:+98(44)32352053, +98(914)3897371.
Fax:+98(44)32722660International Journal of Industrial Mathematics2008-562110420181101Multi-Objective Model for Fair Pricing of Electricity Using the Parameters from the Iran Electricity Market Big Data Analysis35937413242ENM.SalamiDepartment of Industrial Engineering, Central Tehran Branch, Islamic Azad University, Tehran, IranF.Movahedi SobhaniDepartment of Industrial Engineering, Science and Research Branch, Islamic Azad University, Tehran,Iran0000000417561816M. S.GhazizadehDepartment of Electrical Engineering, Abbaspour School of Engineering, Shahid Beheshti University, Tehran, IranJournal Article20170609Assessment of the electricity market shows that, electricity market data can be considered "big data". this data has been analyzed by both conventional and modern data mining methods. The predicted variables of supply and demand are considered to be the input of a defined multi-objective for predicting electricity price, which is the result of the defined model. This shows the advantage of applying the new algorithms for big data mining.https://ijim.srbiau.ac.ir/article_13242_c84a61017a9ba6406984eb2971dd689b.pdfScience and Research Branch, Islamic Azad University, Tehran, Iran
Website: ijim.srbiau.ac.ir
Address: Science and Research Branch, Shohada Hesarak Blvd, Daneshgah Square, Sattari Highway, Tehran, Iran.
Email: ijim@srbiau.ac.ir
Tel:+98(44)32352053, +98(914)3897371.
Fax:+98(44)32722660International Journal of Industrial Mathematics2008-562110420181101Finitely Generated Annihilating-Ideal Graph of Commutative Rings37538313243ENR.TaheriDepartment of Mathematics, Shahrekord Branch, Islamic Azad Univercsity, Shahrekord, Iran.A.TehranienDepartment of Mathematics, Science and Research Branch, Islamic Azad University, Tehran, IranJournal Article20151001Let $R$ be a commutative ring and $mathbb{A}(R)$ be the set of all ideals with non-zero annihilators. Assume that $mathbb{A}^*(R)=mathbb{A}(R)diagdown {0}$ and $mathbb{F}(R)$ denote the set of all finitely generated ideals of $R$. In this paper, we introduce and investigate the {it finitely generated subgraph} of the annihilating-ideal graph of $R$, denoted by $mathbb{AG}_F(R)$. It is the (undirected) graph with vertices $mathbb{A}_F(R)=mathbb{A}^*(R)cap mathbb{F}(R)$ and two distinct vertices $I$ and $J$ are adjacent if and only if $IJ=(0)$. First, we study some basic properties of $mathbb{AG}_F(R)$. For instance, it is shown that if $R$ is not a domain, then $mathbb{AG}_F(R)$ has ascending chain condition (respectively, descending chain condition) on vertices if and only if $R$ is Noetherian (respectively, Artinian). We characterize all rings for which $mathbb{AG}_F(R)$ is a finite, complete, star or bipartite graph. Next, we study diameter and girth of $mathbb{AG}_F(R)$. It is proved that ${rm diam}(mathbb{AG}_F(R))leqslant {rm diam}(mathbb{AG}(R))$ and ${rm gr}(mathbb{AG}_F(R))={rm gr}(mathbb{AG}(R)).$https://ijim.srbiau.ac.ir/article_13243_b23945bec25d7acad3f58678565f7e5f.pdfScience and Research Branch, Islamic Azad University, Tehran, Iran
Website: ijim.srbiau.ac.ir
Address: Science and Research Branch, Shohada Hesarak Blvd, Daneshgah Square, Sattari Highway, Tehran, Iran.
Email: ijim@srbiau.ac.ir
Tel:+98(44)32352053, +98(914)3897371.
Fax:+98(44)32722660International Journal of Industrial Mathematics2008-562110420181101Weak Disposability in Integer-Valued Data Envelopment Analysis38539512653ENA. R.AmirteimooriDepartment of Mathematics, Islamic Azad University, Rasht Branch, Rasht, Iran.0000-0003-4160-8509M.MaghbouliDepartment of Mathematics, Islamic Azad University, Hadishahr Branch, Hadishahr, Iran.Journal Article20170226Conventional data envelopment analysis (DEA) models normally assume all inputs and outputs are real valued and continuous. However in problems some inputs and outputs can only take integer values, also, both desirable and undesirable outputs can be generated . In this paper the effect of undesirable outputs in integer DEA model is discussed. The proposed model distinguishes weak disposability of outputs imposing non-uniform abatement factor.https://ijim.srbiau.ac.ir/article_12653_498256d4785eb28927dcfa2abaa9a72b.pdfScience and Research Branch, Islamic Azad University, Tehran, Iran
Website: ijim.srbiau.ac.ir
Address: Science and Research Branch, Shohada Hesarak Blvd, Daneshgah Square, Sattari Highway, Tehran, Iran.
Email: ijim@srbiau.ac.ir
Tel:+98(44)32352053, +98(914)3897371.
Fax:+98(44)32722660International Journal of Industrial Mathematics2008-562110420181101Numerical Study of Coupled Fluid Flow and Heat Transfer in a Rectangular Domain at Moderate Reynolds Numbers using the Control Volume Method39741012432ENV.AmbethkarDepartment of Mathematics,
Faculty of Mathematical Sciences, University of Delhi,Delhi-110007M.SrivastavaDepartment of Mathematics, Faculty of Mathematical Sciences,
University of Delhi, Delhi-110007, IndiaA.ChamkhaMechanical Engineering Department
Prince Mohammad Bin Fahd University (PMU)
P.O. Box 1664
Al-Khobar 31952, Kingdom of Saudi ArabiaJournal Article20151222In this paper, we have used a control volume method to investigate the problem of a fully coupled fluid flow with heat transfer in a rectangular domain with slip wall boundary conditions. We have used this method to solve the governing equations and thereby to compute the convective and diffusive fluxes at the cell faces of the control volumes considered around the grid points of computational domain.https://ijim.srbiau.ac.ir/article_12432_b832aa59acf277eaddff7500f1b2c9ea.pdf