University of Guilan
Journal of Mathematical Modeling
2345-394X
2382-9869
3
1
2015
06
01
SDO relaxation approach to fractional quadratic minimization with one quadratic constraint
1
13
EN
Maziar
Salahi
Faculty of Mathematical Sciences, University of Guilan,Rasht, Iran
salahim@guilan.ac.ir
Arezo
Zare
Faculty of Mathematical Sciences, University of Guilan,Rasht, Iran
ze.arezou@gmail.com
In this paper, we study the problem of minimizing the ratio of two quadratic functions subject to a quadratic constraint. First we introduce a parametric equivalent of the problem. Then a bisection and a generalized Newton-based method algorithms are presented to solve it. In order to solve the quadratically constrained quadratic minimization problem within both algorithms, a semidefinite optimization relaxation approach is presented. Finally, two set of examples are presented to compare the performance of algorithms.
Fractional quadratic optimization,nonconvex problem,convex optimization,semidefinite optimization
https://jmm.guilan.ac.ir/article_198.html
https://jmm.guilan.ac.ir/article_198_2afefd8e0fbd7908279afb268bcdcf96.pdf
University of Guilan
Journal of Mathematical Modeling
2345-394X
2382-9869
3
1
2015
06
01
Dynamical behavior and synchronization of hyperchaotic complex T-system
15
32
EN
Hossein
Kheiri
Faculty of Mathematical Sciences, University of Tabriz, Tabriz, Iran
h-kheiri@tabrizu.ac.ir
Bashir
Naderi
Department of Mathematics, Payame Noor University, Iran
b_naderi@pnu.ac.ir
In this paper, we introduce a new hyperchaotic complex T-system. This system has complex nonlinear behavior which we study its dynamical properties including invariance, equilibria and their stability, Lyapunov exponents, bifurcation, chaotic behavior and chaotic attractors as well as necessary conditions for this system to generate chaos. We discuss the synchronization with certain and uncertain parameters via adaptive control. For synchronization, we use less controllers than the dimension of the proposed system. Also, we prove that the error system is asymptotically stable by using a Lyapunov function. Numerical simulations are computed to check the analytical expressions.
Lyapunov stability,Synchronization,Chaos,Adaptive control
https://jmm.guilan.ac.ir/article_196.html
https://jmm.guilan.ac.ir/article_196_8b4648b64fca3b8b5a1909e25a16abaf.pdf
University of Guilan
Journal of Mathematical Modeling
2345-394X
2382-9869
3
1
2015
06
01
An efficient numerical method for singularly perturbed second order ordinary differential equation
33
48
EN
Jugal
Mohapatra
0000-0001-5118-3933
Department of Mathematics, National Institute of Technology Rourkela, India
jugal@nitrkl.ac.in
Manas kumar
Mahalik
Department of Mathematics, National Institute of Technology Rourkela, India
513ma1002@nitrkl.ac.in
In this paper an exponentially fitted finite difference method is presented for solving singularly perturbed two-point boundary value problems with the boundary layer. A fitting factor is introduced and the model equation is discretized by a finite difference scheme on an uniform mesh. Thomas algorithm is used to solve the tri-diagonal system. The stability of the algorithm is investigated. It is shown that the proposed technique is of first order accurate and the error constant is independent of the perturbation parameter. Several problems are solved and numerical results are presented to support the theoretical error bounds established.
Singular perturbation problems,boundary layers,Thomas algorithm,exponential fitting factor,uniform convergence
https://jmm.guilan.ac.ir/article_197.html
https://jmm.guilan.ac.ir/article_197_ce87e8a8bfb327a62b9bc4f0cd2912ba.pdf
University of Guilan
Journal of Mathematical Modeling
2345-394X
2382-9869
3
1
2015
06
01
Hydromagnetic Couette flow of class-II and heat transfer through a porous medium in a rotating system with Hall effects
49
75
EN
Gauri
Shanker Seth
Department of Applied Mathematics, Indian School of Mines, Dhanbad-826004, India
gsseth ism@yahoo.com
Prashanta Kumar
Mandal
Department of Applied Mathematics, Indian School of Mines, Dhanbad-826004, India
ism.prashanta@gmail.com
Rohit
Sharma
Department of Applied Mathematics, Indian School of Mines, Dhanbad-826004, India
rohit.iitg08@gmail.com
Steady hydromagnetic Couette flow of class-II of a viscous, incompressible and electrically conducting fluid through a porous medium in a rotating system taking Hall current into account is investigated. Heat transfer characteristics of the fluid flow are considered taking viscous and Joule dissipations into account. It is noticed that there exists flow separation at the moving plate in the secondary flow direction on increasing either rotation parameter $K^2$ when Hall current parameter $m = 0.5$ or $m$ when $K^2 = 7$. Also there exists flow separation at the moving plate in the secondary flow direction on increasing either magnetic parameter $M^2$ for every value of porosity parameter $K_1$ or $K_1$ when $M^2 = 15$.
Couette flow of class-II,Porous medium,Coriolis force,Hall current,viscous and Joule dissipations
https://jmm.guilan.ac.ir/article_205.html
https://jmm.guilan.ac.ir/article_205_9dfc74ef6cd9798bedaed2a07880d060.pdf
University of Guilan
Journal of Mathematical Modeling
2345-394X
2382-9869
3
1
2015
06
01
Bernoulli matrix approach for matrix differential models of first-order
77
89
EN
Ahmad
Golbabai
School of Mathematics, Iran University of Science and Technology, Tehran, Iran
golbabai@iust.ac.ir
Samaneh
Panjeh Ali Beik
School of Mathematics, Iran University of Science and Technology, Tehran, Iran
panjehali@iust.ac.ir
The current paper contributes a novel framework for solving a class of linear matrix differential equations. To do so, the operational matrix of the derivative based on the shifted Bernoulli polynomials together with the collocation method are exploited to reduce the main problem to system of linear matrix equations. An error estimation of presented method is provided. Numerical experiments are reported to demonstrate the applicably and efficiency of the propounded technique.
Linear matrix differential equation,Bernoulli polynomials,operational matrix of derivative,error estimation
https://jmm.guilan.ac.ir/article_201.html
https://jmm.guilan.ac.ir/article_201_603705fa691297a3e173ef4db4941979.pdf
University of Guilan
Journal of Mathematical Modeling
2345-394X
2382-9869
3
1
2015
06
01
Determining the order of minimal realization of descriptor systems without use of the Weierstrass canonical form
91
101
EN
Kamele
Nassiri Pirbazari
Faculty of Mathematical Sciences, University of Guilan, Rasht, Iran
k-nasiri@guilan.ac.ir
Mehdi
Azari
Faculty of Mathematical Sciences, University of Guilan, Rasht, Iran
mr.mehdiazari@yahoo.com
A common method to determine the order of minimal realization of a continuous linear time invariant descriptor system is to decompose it into slow and fast subsystems using the Weierstrass canonical form. The Weierstrass decomposition should be avoided because it is generally an ill-conditioned problem that requires many complex calculations especially for high-dimensional systems. The present study finds the order of minimal realization of a continuous linear time invariant descriptor system without use of the Weierstrass canonical form.
Descriptor system,minimal realization,Weierstrass canonical form
https://jmm.guilan.ac.ir/article_199.html
https://jmm.guilan.ac.ir/article_199_73509e717ef96f2eab01c1417ed30360.pdf