University of GuilanJournal of Mathematical Modeling2345-394X7120190301Existence and continuation of solutions of Hilfer fractional differential equations120304810.22124/jmm.2018.9220.1136ENSandeep P.BhairatDepartment of mathematics, Institute of Chemical Technology, Mumbai--400 019 (M.S.), IndiaJournal Article20171207In the present paper we consider initial value problems for Hilfer fractional differential equations and for system of Hilfer fractional differential equations. By using equivalent integral equations and some fixed point theorems, we study the local existence of solutions. We extend these local existence results globally with the help of continuation theorems and generalized Gronwall inequality.https://jmm.guilan.ac.ir/article_3048_5abfe4f6dc0a6ad18e139b42b6c1c26c.pdfUniversity of GuilanJournal of Mathematical Modeling2345-394X7120190301Bases for polynomial-based spaces2134304910.22124/jmm.2018.11242.1189ENMaryamMohammadiFaculty of Mathematical Sciences and Computer, Kharazmi University, Tehran, IranMaryamBahrkazemiSchool of Mathematics, Iran University of Science and Technology, Narmak, Tehran, IranJournal Article20180908Since it is well-known that the Vandermonde matrix is ill-conditioned, this paper surveys the choices of other bases. These bases are data-dependent and are categorized into discretely $ell^2$-orthonormal and continuously $L^2$-orthonormal bases. The first one is defined via a decomposition of the Vandermonde matrix while the latter is given by a decomposition of the Gramian matrix corresponding to monomial bases. A discussion of various matrix decomposition (e.g. Cholesky, QR and SVD) provides a variety of different bases with different properties. Special attention is given to duality. Numerical results show that the matrices of values of the new bases have smaller condition numbers than the common monomial bases. It can also be pointed out that the new introduced bases are good candidates for interpolation.https://jmm.guilan.ac.ir/article_3049_690e13a27bd207112d0b5f88eabeeaaa.pdfUniversity of GuilanJournal of Mathematical Modeling2345-394X7120190301A new two-parameter distribution: properties and applications3548310210.22124/jmm.2018.9994.1148ENAnitaAbdollahi NanvapishehDepartment of Statistics, Islamic Azad University, Tehran north branch, Tehran, IranS.M.T.K.MirMostafaeeDepartment of Statistics, University of Mazandaran, P.O. Box 47416-1467, Babolsar, IranEmrahAltunDepartment of Statistics, Bartin University, Bartin 74100, TurkeyJournal Article20180317In this paper, a new two-parameter lifetime distribution called ``the exponentiated Shanker distribution" is suggested. The new distribution has an increasing, decreasing and bathtub-shaped hazard rate function (hrf) for modeling lifetime data. Various mathematical and statistical properties of the proposed distribution including its hrf, complete and incomplete moments, skewness and kurtosis, mean deviations, Bonferroni and Lorenz curves are discussed. Estimation of its parameters is also discussed using the method of maximum likelihood estimation and a simulation study is given. Finally, two applications of the new distribution are presented using two real data sets. The results also confirmed the suitability of the proposed model for the real data sets.https://jmm.guilan.ac.ir/article_3102_56053ebfad91c8335d246d109bf34e11.pdfUniversity of GuilanJournal of Mathematical Modeling2345-394X7120190301Global dynamics of a mathematical model on smoking: impact of anti-smoking campaign4962318710.22124/jmm.2018.10117.1153ENVinayVermaDepartment of Mathematical and Statistical Sciences, Shri Ramswaroop Memorial University, Barabanki-225003, IndiaArchanaBhadauriaDepartment of Mathematical and Statistical Sciences, Shri Ramswaroop Memorial University, Barabanki-225003, IndiaJournal Article20180418We propose and analyze a mathematical model to study the dynamics of smoking behavior under the influence of educational and media programs. Proposed mathematical model subdivides the total population into potential smokers, smokers and those smokers who quit smoking permanently. The biologically feasible equilibrium points are computed and their stability is analyzed and discussed. The theoretical analysis of the model reveals that the smoking-free equilibrium is stable when a threshold, termed as the smokers-generation number, is less than unity, and unstable if this threshold value is greater than unity. Moreover, number of smokers may be effectively controlled by keeping the smokers generation number less than unity. Analytical findings are justified by numerical simulation.https://jmm.guilan.ac.ir/article_3187_377e2a6014896f5eb6b57a6be96d189f.pdfUniversity of GuilanJournal of Mathematical Modeling2345-394X7120190301Valid implementation of the Sinc-collocation method to solve linear integral equations by the CADNA library6384319110.22124/jmm.2018.11608.1200ENMohammad AliFariborziDepartment of Mathematics, Central Tehran Branch, Islamic Azad University, Tehran, Iran.SamadNoeiaghdamDepartment of Mathematics, Central Tehran Branch, Islamic Azad University, Tehran, Iran.Journal Article20181030The aim of this research is to apply the stochastic arithmetic (SA) for validating the Sinc-collocation method (S-CM) with single or double exponentially decay to find the numerical solution of second kind Fredholm integral equation (IE). To this end, the CESTAC(Controle et Estimation Stochastique des Arrondis de Calculs) method and the CADNA (Control of Accuracy and Debugging for Numerical Applications) library are applied. Using this method, the optimal iteration of S-CM, the optimal approximation, the absolute error and the numerical instabilities can be determined. A theorem is proved which shows the accuracy of the S-CM by means of the concept of common significant digits. Some IEs are presented and the numerical results of comparison between the single exponentially decay (SE) and the double exponentially decay (DE) are demonstrated in the tables.https://jmm.guilan.ac.ir/article_3191_7f0189af9b25b9010b1030de4b7b8035.pdfUniversity of GuilanJournal of Mathematical Modeling2345-394X7120190301Solving a time-fractional inverse heat conduction problem with an unknown nonlinear boundary condition85106319210.22124/jmm.2018.11656.1204ENAfshinBabaeiFaculty of MAthematical sciences, University of Mazandaran, Babolsar, Iran.0000-0002-6980-9786Journal Article20181109In this paper, we consider a time-fractional inverse heat conduction problem with an unknown function in the nonlinear boundary condition. First, ill-posedness of this problem is shown. Thus, we will apply the mollification regularization method with Gauss kernel to regularize the problem, then the space marching finite difference method is considered to solve numerically the mollified problem. The generalized cross-validation choice rule is used to find a suitable regularization parameter. The numerical scheme is completely described and the stability and convergence of the solutions are investigated. Finally, some numerical examples are presented to illustrate the validity and effectiveness of the proposed algorithm.https://jmm.guilan.ac.ir/article_3192_d0e202976070aee9a670630923af2f0b.pdfUniversity of GuilanJournal of Mathematical Modeling2345-394X7120190301Rationalized Haar wavelet bases to approximate the solution of the first Painlev'e equations107116321210.22124/jmm.2018.11881.1214ENMajidErfanianDepartment of Science, School of Mathematical Sciences, University of Zabol, Zabol, Iran0000-0001-8449-9272AminMansooriDepartment of Applied Mathematics, Ferdowsi University of Mashhad, Mashhad, IranJournal Article20181204In this article, using the properties of the rationalized Haar (RH) wavelets and the matrix operator, a method is presented for calculating the numerical approximation of the first Painlev'e equations solution. Also, an upper bound of the error is given and by applying the Banach fixed point theorem the convergence analysis of the method is stated. Furthermore, an algorithm to solve the first Painlev'e equation is proposed. Finally, the reported results are compared with some other methods to show the effectiveness of the proposed approach.https://jmm.guilan.ac.ir/article_3212_4abf5373c41b9ab6b4ccd79694cdc8c3.pdfUniversity of GuilanJournal of Mathematical Modeling2345-394X7120190301An economic group model for innovation diffusion of new product with delay of adoption for low income group117132322710.22124/jmm.2018.10330.1155ENRishiTuliResearch Scholar, IKG-Punjab Technical University, Kapurthala, IndiaJoydipDharABV-IIITM, Gwalior, M.P., IndiaHarbaxBhattiB.B.S.B. Engineering College, Fatehgarh Sahib Punjab, IndiaJournal Article20180510In this paper, an economic group delay model is established. Dynamical behavior and Basic influence number of the proposed system are studied. Asymptotic stability analysis is carried out for the steady-states. The critical value of the delay $tau$ is determined. It is observed that for the interior steady-state remains stable if the adoption delay for the low-income group is less than the threshold value, i.e., $tau<tau_{0}^+$. If $tau$ crosses its threshold, system perceives oscillating behavior, and Hopf bifurcation occurs. Moreover, sensitivity analysis is performed for the system parameter used in the interior steady-state. Finally, numerical simulations are conducted to support our analytical findings.https://jmm.guilan.ac.ir/article_3227_1bfc83f2c2dba775c2891c5288d2eb59.pdfUniversity of GuilanJournal of Mathematical Modeling2345-394X7120190301A nonlocal Cauchy problem for nonlinear fractional integro-differential equations with positive constant coefficient133151334210.22124/jmm.2019.11580.1199ENShivaji RamchandraTateDepartment of Mathematics, Kisan Veer Mahavidyalaya, Wai, India0000-0002-0323-7308Vinod VijaykumarKharatDepartment of Mathematics, N.B. Navale Sinhgad College of Engg., Solapur, IndiaHambirrao TatyasahebDindeDepartment of Mathematics, Karmaveer Bhaurao Patil College,Urun--Islampur, IndiaJournal Article20181105In this paper, we study the existence, uniqueness and stability of solutions of a nonlocal Cauchy problem for nonlinear fractional integro-differential equations with positive constant coefficient. The results heavily depend on the Banach contraction principle, Schaefer's fixed point theorem and Pachpatte's integral inequality. In the last, results are illustrated with suitable example.https://jmm.guilan.ac.ir/article_3342_72bd29e2068c0e2b41eb06371560d3c2.pdf