Islamic Azad University, Central tehran BranchInternational Journal of Mathematical Modelling & Computations2228-622524 (FALL)20160922HIERARCHICAL COMPUTATION OF HERMITE SPHERICAL INTERPOLANT247259521805ENA. LamniiFaculty of Science and Technology, University Hassan first, Settat, Morocco
MoroccoH. MraouiJournal Article20160414In this paper, we propose to extend the hierarchical bivariateHermite Interpolant to the spherical case. Let $T$ be an arbitraryspherical triangle of the unit sphere $S$ and let $u$ be a functiondefined over the triangle $T$. For $kin mathbb{N}$, we consider aHermite spherical Interpolant problem $H_k$ defined by some datascheme $mathcal{D}_k(u)$ and which admits a unique solution $p_k$in the space $B_{n_k}(T)$ of homogeneous Bernstein-B'ezierpolynomials of degree $n_k=2k$ (resp. $n_k=2k+1$) defined on $T$. Wediscuss the case when the data scheme $mathcal{D}_{r}(u)$ arenested, i.e., $mathcal{D}_{r-1}(u)subset mathcal{D}_{r}(u)$ forall $1 leq r leq k$. This, give a recursive formulae to computethe polynomial $p_k$. Moreover, this decomposition give a new basisfor the space $B_{n_k}(T)$, which are the hierarchical structure.The method is illustrated by a simple numerical example.
http://ijm2c.iauctb.ac.ir/article_521805_9608b9b588e3eb826d022aab4cb15b7c.pdfIslamic Azad University, Central tehran BranchInternational Journal of Mathematical Modelling & Computations2228-622524 (FALL)20160922A SINGLE SERVER BERNOULLI VACATION QUEUE WITH TWO TYPE OF SERVICES AND WITH RESTRICTED ADMISSIBILITY261276521806ENR. KalyanaramanProfessor of Mathematics, Annamalai University
India
Professor of Mathematics 3rdV. SuvithaAnnamalai University
India
Research Student,AnnamalaiuniversityJournal Article20160414A single server queue with Bernoulli vacation has been considered. In addition the admission to queue is based on a Bernoulli process and the server gives two type of services. For this model the probability generating function for the number of customers in the queue at different server's state are obtained using supplementary variable technique. Some performance measures are calculated. Some particular cases are obtained and numerical examples are also presented.
http://ijm2c.iauctb.ac.ir/article_521806_b88e4e9bd11a5ac2bef1dd67c725089c.pdfIslamic Azad University, Central tehran BranchInternational Journal of Mathematical Modelling & Computations2228-622524 (FALL)20160922SOLVING FRACTIONAL NONLINEAR SCHR"{O}DINGER EQUATIONS BY FRACTIONAL COMPLEX TRANSFORM METHOD277281521807ENB. GhazanfariLorestan university
Iran, Islamic Republic of
Assist. Prof. in Appl. Math.Department of MathematicsA. G. GhazanfariJournal Article20160414In this paper, we apply fractional complex transform to convert the fractional nonlinear Schr"{o}dinger equations to the nonlinear Schr"{o}dinger equations.
http://ijm2c.iauctb.ac.ir/article_521807_d54e945a101d1d0a4e976e5325f52584.pdfIslamic Azad University, Central tehran BranchInternational Journal of Mathematical Modelling & Computations2228-622524 (FALL)20160922NUMERICAL SOLUTION OF THE MOST GENERAL NONLINEAR FREDHOLM INTEGRO-DIFFERENTIAL-DIFFERENCE EQUATIONS BY USING TAYLOR POLYNOMIAL APPROACH283298521808ENH. AdibiA. TaherianJournal Article20160414<span>In this study, a Taylor method is developed for numerically solving the high-order most general nonlinear Fredholm integro-diff</span><br /><span>erential-difference equations in terms of Taylor expansions. The method is based on transferring the equation and conditions into the matrix equations which leads to solve a system of nonlinear algebraic equations with the unknown Taylor coefficients. Also, we test the method by numerical examples</span>http://ijm2c.iauctb.ac.ir/article_521808_45d2cf6011ebd4495ba59735ce46b5ad.pdfIslamic Azad University, Central tehran BranchInternational Journal of Mathematical Modelling & Computations2228-622524 (FALL)20160922A NEW MODIFIED HOMOTOPY PERTURBATION METHOD FOR SOLVING LINEAR SECOND-ORDER FREDHOLM INTEGRO-DIFFERENTIAL EQUATIONS299308521809ENM. SotoodehDepartment of Applied Mathematics, Science and Research Branch, Islamic Azad University
Iran, Islamic Republic ofM. A Fariborzi AraghiDepartment of Applied Mathematics, Central Tehran Branch, Islamic Azad University
Iran, Islamic Republic ofJournal Article20160414In this paper, we tried to accelerate the rate of convergence in solving second-order Fredholm type Integro-differential equations using a new method which is based on Improved homotopy perturbation method (IHPM) and applying accelerating parameters. This method is very simple and the result is obtained very fast.
http://ijm2c.iauctb.ac.ir/article_521809_7da3d74052041f41e82c7ac5002d6c30.pdfIslamic Azad University, Central tehran BranchInternational Journal of Mathematical Modelling & Computations2228-622524 (FALL)20160922HYBRID FUNCTIONS APPROACH AND PIECEWISE CONSTANT FUNCTION BY COLLOCATION METHOD FOR THE NONLINEAR VOLTERRA-FREDHOLM INTEGRAL EQUATIONS309320521810ENS. M. MirzaeiDepartment of Mathematics, Minoodasht Branch, Islamic Azad University, Minoodasht, Iran
Iran, Islamic Republic ofJournal Article20160414<span>In this work, we will compare two approximation method based on hybrid Legendre and</span><br /><span>Block-Pulse functions and a computational method for solving nonlinear Fredholm-Volterra</span><br /><span>integral equations of the second kind which is based on replacement of the unknown function</span><br /><span>by truncated series of well known Block-Pulse functions (BPfs) expansion</span>http://ijm2c.iauctb.ac.ir/article_521810_d26fce73fc8832bd25d552d7105b5c78.pdfIslamic Azad University, Central tehran BranchInternational Journal of Mathematical Modelling & Computations2228-622524 (FALL)20160922COST MALMQUIST PRODUCTIVITY INDEX IN SUPPLY CHAIN321326521811ENM. Fallah JelodarDepartment of Mathematics, Islamic Azad University, Firoozkooh Branch, Firoozkooh, Iran.M. SaneiDepartment of Mathematics, Islamic Azad University, Firoozkooh Branch, Firoozkooh, Iran.S. Mamizadeh ChatghayehJournal Article20160414The index is excellent by the Malmquist index as extended to productivity measurement. The index developed here is defined in terms of input cost rather than input quantity distance functions in supply chain. Therefore, we propose productivity change is decomposed into overall efficiency and cost technical change. These decompositions provide a clearer situation of the root sources of supply chain productivity change, so that illustrated here in a sample of supply chain; so that results are computed using non-parametric mathematical programming.
http://ijm2c.iauctb.ac.ir/article_521811_402be0e244d601c69bb7c2f5626937d1.pdfIslamic Azad University, Central tehran BranchInternational Journal of Mathematical Modelling & Computations2228-622524 (FALL)20160922DESIGN AND DEVELOPMENT OF THE STRATEGY TO IMPROVE PATIENT SATISFACTION IN A HOSPITAL SETTING327339521812ENL. SadeghiIran, Islamic Republic ofA. A. NasiripourJournal Article20160414Attempts made in order to improve management tools of performance showing the importance of customer satisfaction in determining the organizations’ success in profitability and business. The main objective of this study was to develop appropriate strategies to improve patient satisfaction in Hospital.
The research was a descriptive-practical one. Data was collected through a brainstorming session, two questionnaires designed based on internal and external evaluation matrices standard framework and quantitative strategic programming matrix, and finally some changes were made. Having collected the data, vision and mission of the hospital were developed; then SWOT matrix of the hospital was formed and due to the hospital being placed in competitive position (ST), five strategies were considered necessary to improve the satisfaction of the hospital’s patients.
What was considered the most was appointing a strategy in order to attract specialists and efficient forces with a score of 5.56 and the least considered referred to the strategy of promoting the empowerment of newly-hired staff with a score of 2.96.
The population of this study is comprised of experts and senior managers at one of the hospital in Tehran working in 2012 (N=16).
Due to the limited number of population, sampling was not done. Tools of collecting data included brainstorming session and two questionnaires.http://ijm2c.iauctb.ac.ir/article_521812_4dd95d05e76bf8d2c1b3ec6fb1f2434e.pdf