Numerical solution of delay differential equations via operational matrices of hybrid of block-pulse functions and Bernstein polynomials
M.
Behroozifar
Babol University of Technology
author
S. A.
Yousefi
Shahid Beheshti University
author
text
article
2013
eng
In this paper, we introduce hybrid of block-pulse functions and Bernstein polynomials and derive operational matrices of integration, dual, differentiation, product and delay of these hybrid functions by a general procedure that can be used for other polynomials or orthogonal functions. Then, we utilize them to solve delay differential equations and time-delay system. The method is based upon expanding various time-varying functions as their truncated hybrid functions. Illustrative examples are included to demonstrate the validity, efficiency and applicability of the method.
Computational Methods for Differential Equations
University of Tabriz
2345-3982
1
v.
2
no.
2013
78
95
http://cmde.tabrizu.ac.ir/article_307_17289efa2e1cc599ee284fe876cc5c65.pdf
A fractional type of the Chebyshev polynomials for approximation of solution of linear fractional differential equations
Mohammadreza
Ahmadi Darani
Shahrekord University.
author
Mitra
Nasiri
Shahrekord University.
author
text
article
2013
eng
In this paper we introduce a type of fractional-order polynomials based on the classical Chebyshev polynomials of the second kind (FCSs). Also we construct the operational matrix of fractional derivative of order $ gamma $ in the Caputo for FCSs and show that this matrix with the Tau method are utilized to reduce the solution of some fractional-order differential equations.
Computational Methods for Differential Equations
University of Tabriz
2345-3982
1
v.
2
no.
2013
96
107
http://cmde.tabrizu.ac.ir/article_598_0ef9db406547966aff664044ad1a9c85.pdf
A new numerical scheme for solving systems of integro-differential equations
Esmail
Hesameddini
Shiraz University of Technology
author
Azam
Rahimi
Shiraz University of Technology
author
text
article
2013
eng
This paper has been devoted to apply the Reconstruction of Variational Iteration Method (RVIM) to handle the systems of integro-differential equations. RVIM has been induced with Laplace transform from the variational iteration method (VIM) which was developed from the Inokuti method. Actually, RVIM overcome to shortcoming of VIM method to determine the Lagrange multiplier. So that, RVIM method provides rapidly convergent successive approximations to the exact solution. The advantage of the RVIM in comparison with other methods is the simplicity of the computation without any restrictive assumptions. Numerical examples are presented to illustrate the procedure. Comparison with the homotopy perturbation method has also been pointed out.
Computational Methods for Differential Equations
University of Tabriz
2345-3982
1
v.
2
no.
2013
108
119
http://cmde.tabrizu.ac.ir/article_588_4ab5f973114dd8420b112a7ca9ccee03.pdf
Extremal Positive Solutions For The Distributed Order Fractional Hybrid Differential Equations
Hossein
Noroozi
Shahrekord University
author
Alireza
Ansari
Shahrekord University
author
text
article
2013
eng
In this article, we prove the existence of extremal positive solution for the distributed order fractional hybrid differential equation$$int_{0}^{1}b(q)D^{q}[frac{x(t)}{f(t,x(t))}]dq=g(t,x(t)),$$using a fixed point theorem in the Banach algebras. This proof is given in two cases of the continuous and discontinuous function $g$, under the generalized Lipschitz and Caratheodory conditions.
Computational Methods for Differential Equations
University of Tabriz
2345-3982
1
v.
2
no.
2013
120
134
http://cmde.tabrizu.ac.ir/article_597_aec82c22b058d25675f6cd533c9fac23.pdf
Lie symmetry analysis for Kawahara-KdV equations
Ali
Haji Badali
University of Bonab
author
Mir Sajjad
Hashemi
University of Bonab
author
Maryam
Ghahremani
University of Bonab
author
text
article
2013
eng
We introduce a new solution for Kawahara-KdV equations. The Lie group analysis is used to carry out the integration of this equations. The similarity reductions and exact solutions are obtained based on the optimal system method.
Computational Methods for Differential Equations
University of Tabriz
2345-3982
1
v.
2
no.
2013
135
145
http://cmde.tabrizu.ac.ir/article_971_26e06445c2a60e5b2c79259ca7107f29.pdf
Solitary Wave solutions of the BK equation and ALWW system by using the first integral method
Ahmad
Neirameh
Department of mathematics,Gonbad University
author
text
article
2013
eng
Solitary wave solutions to the Broer-Kaup equations and approximate long water wave equations are considered challenging by using the rst integral method.The exact solutions obtained during the present investigation are new. This method can be applied to nonintegrable equations as well as to integrable ones.
Computational Methods for Differential Equations
University of Tabriz
2345-3982
1
v.
2
no.
2013
146
157
http://cmde.tabrizu.ac.ir/article_972_0e66618e8fc1bfb24782bd08578d30de.pdf