Solving fractional pantograph delay differential equations via fractional-order Boubaker polynomials

被引:0
作者
Kobra Rabiei
Yadollah Ordokhani
机构
[1] Alzahra University,Department of Mathematics, Faculty of Mathematical Sciences
来源
Engineering with Computers | 2019年 / 35卷
关键词
Pantograph differential equations; Boubaker polynomials of fractional order; Least square approximation method; Operational matrix; Convergence analysis;
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学科分类号
摘要
In the current study, we introduce fractional-order Boubaker polynomials related to the Boubaker polynomials to achieve the numerical result for pantograph differential equations of fractional order in any arbitrary interval. The features of these polynomials are exploited to construct the new fractional integration and pantograph operational matrices. Then these matrices and least square approximation method are used to reorganize the problem to a nonlinear equations system which can be resolved by means of the Newton’s iterative method. The brief discussion about errors of the used estimations is deliberated and, finally, some examples are included to demonstrate the validity and applicability of our method.
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页码:1431 / 1441
页数:10
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  • [1] Kulish VV(2002)Application of fractional calculus to fluid mechanics J Fluids Eng 124 803-806
  • [2] Lage JL(1985)Fractional calculus in the transient analysis of viscoelastically damped structures J AIAA 23 918-925
  • [3] Bagley RL(2010)Fractional differential equations in electrochemistry Adv Eng Softw 41 9-12
  • [4] Torvik PJ(2014)A fractional order epidemic model for the simulation of outbreaks of in uenza A(H1N1) Math Methods Appl Sci 37 2218-2226
  • [5] Oldham KB(2015)Multiplicity results for elliptic fractional equations with subcritical term Nonlinear Differ Equ Appl 22 721-739
  • [6] Gonzalez-Parra G(2017)Efficient modified Chebyshev differentiation matrices for fractional differential equations Commun Nonlinear Sci Numer Simul 50 284-310
  • [7] Arenas AJ(2005)Numerical solutions for systems of fractional differential equations by the decomposition method Appl Math Comput 162 1351-1365
  • [8] Chen-Charpentier BM(2010)A new operational matrix for solving fractional-order differential equations Comput Math Appl 59 1329-1336
  • [9] Bisci GM(2017)A finite element method for the numerical solution of Rayleigh–Stokes problem for a heated generalized second grade fluid with fractional derivatives Eng Comput 33 587-605
  • [10] Radulescu VD(1997)An eigenvector expansion method for the solution of motion containing fractional derivatives J Appl Mech 64 629-635
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