Fractional-order Boubaker wavelets method for solving fractional Riccati differential equations

被引:17
|
作者
Rabiei, Kobra [1 ]
Razzaghi, Mohsen [1 ]
机构
[1] Mississippi State Univ, Dept Math & Stat, Mississippi State, MS 39762 USA
来源
APPLIED NUMERICAL MATHEMATICS | 2021年 / 168卷
关键词
Fractional-order Boubaker wavelet; Riccati differential equations; Riemann-Liouville integral; Hypergeometric functions; OPERATIONAL MATRIX; NUMERICAL-SOLUTION; APPROXIMATE SOLUTION; BERNOULLI WAVELETS; LEGENDRE FUNCTIONS; INTEGRATION;
D O I
10.1016/j.apnum.2021.05.017
中图分类号
O29 [应用数学];
学科分类号
070104 ;
摘要
We give an effective method for solving fractional Riccati differential equations. We first define the fractional-order Boubaker wavelets (FOBW). Using the hypergeometric functions, we determine the exact values for the Riemann-Liouville fractional integral operator of the FOBW. The properties of FOBW, the exact formula, and the collocation method are used to transform the problem of solving fractional Riccati differential equations to the solution of a set of algebraic equations. These equations are solved via Newton's iterative method. The error estimation for the present method is also determined. The performance of the developed numerical schemes is assessed through several examples. This method yields very accurate results. The given numerical examples support this claim. (C) 2021 IMACS. Published by Elsevier B.V. All rights reserved.
引用
收藏
页码:221 / 234
页数:14
相关论文
共 50 条
  • [41] Fractional-order Bernoulli functions and their applications in solving fractional Fredholem-Volterra integro-differential equations
    Rahimkhani, Parisa
    Ordokhani, Yadollah
    Babolian, Esmail
    APPLIED NUMERICAL MATHEMATICS, 2017, 122 : 66 - 81
  • [42] Fractional-order Fibonacci-hybrid functions approach for solving fractional delay differential equations
    Sedigheh Sabermahani
    Yadollah Ordokhani
    Sohrab-Ali Yousefi
    Engineering with Computers, 2020, 36 : 795 - 806
  • [43] Generalized Gegenbauer-Humbert wavelets for solving fractional partial differential equations
    Alkhalissi, Jumana H. S.
    Emiroglu, Ibrahim
    Bayram, Mustafa
    Secer, Aydin
    Tasci, Fatih
    ENGINEERING WITH COMPUTERS, 2023, 39 (02) : 1363 - 1374
  • [44] A fractional-order Legendre collocation method for solving the Bagley-Torvik equations
    Mohammadi, Fakhrodin
    Mohyud-Din, Syed Tauseef
    ADVANCES IN DIFFERENCE EQUATIONS, 2016,
  • [45] Fractional-order shifted Legendre collocation method for solving non-linear variable-order fractional Fredholm integro-differential equations
    Abdelkawy, M. A.
    Amin, A. Z. M.
    Lopes, Antonio M.
    COMPUTATIONAL & APPLIED MATHEMATICS, 2022, 41 (01)
  • [46] Solving a System of Fractional-Order Volterra-Fredholm Integro-Differential Equations with Weakly Singular Kernels via the Second Chebyshev Wavelets Method
    Bargamadi, Esmail
    Torkzadeh, Leila
    Nouri, Kazem
    Jajarmi, Amin
    FRACTAL AND FRACTIONAL, 2021, 5 (03)
  • [47] On the applicability of Genocchi wavelet method for different kinds of fractional-order differential equations with delay
    Dehestani, Haniye
    Ordokhani, Yadollah
    Razzaghi, Mohsen
    NUMERICAL LINEAR ALGEBRA WITH APPLICATIONS, 2019, 26 (05)
  • [48] An integral operational matrix based on Jacobi polynomials for solving fractional-order differential equations
    Kazem, Saeed
    APPLIED MATHEMATICAL MODELLING, 2013, 37 (03) : 1126 - 1136
  • [49] Approximate solutions for solving nonlinear variable-order fractional Riccati differential equations
    Doha, Eid H.
    Abdelkawy, Mohamed A.
    Amin, Ahmed Z. M.
    Baleanu, Dumitru
    NONLINEAR ANALYSIS-MODELLING AND CONTROL, 2019, 24 (02): : 176 - 188
  • [50] A CHEBYSHEV PSEUDO-SPECTRAL METHOD FOR SOLVING FRACTIONAL-ORDER INTEGRO-DIFFERENTIAL EQUATIONS
    Sweilam, N. H.
    Khader, M. M.
    ANZIAM JOURNAL, 2010, 51 (04) : 464 - 475
12345