An improved composite collocation method for distributed-order fractional differential equations based on fractional Chelyshkov wavelets

Applied Numerical Mathematics ◽

10.1016/j.apnum.2019.05.023 ◽

2019 ◽

Vol 145 ◽

pp. 1-27 ◽

Author(s):

P. Rahimkhani ◽

Y. Ordokhani ◽

P.M. Lima

Keyword(s):

Differential Equations ◽

Collocation Method ◽

Fractional Differential Equations ◽

Fractional Differential ◽

Distributed Order

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Polynomial–Sinc collocation method combined with the Legendre–Gauss quadrature rule for numerical solution of distributed order fractional differential equations

Revista de la Real Academia de Ciencias Exactas Físicas y Naturales Serie A Matemáticas ◽

10.1007/s13398-020-00976-3 ◽

2021 ◽

Vol 115 (2) ◽

Author(s):

Nasrin Moshtaghi ◽

Abbas Saadatmandi

Keyword(s):

Differential Equations ◽

Numerical Solution ◽

Collocation Method ◽

Fractional Differential Equations ◽

Quadrature Rule ◽

Gauss Quadrature ◽

Fractional Differential ◽

Gauss Quadrature Rule ◽

Distributed Order

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Stability Analysis of Distributed Order Fractional Differential Equations

Abstract and Applied Analysis ◽

10.1155/2011/175323 ◽

2011 ◽

Vol 2011 ◽

pp. 1-12 ◽

Author(s):

H. Saberi Najafi ◽

A. Refahi Sheikhani ◽

A. Ansari

Keyword(s):

Stability Analysis ◽

Characteristic Function ◽

Differential Equations ◽

Density Function ◽

Robust Stability ◽

Fractional Differential Equations ◽

Stability Condition ◽

Fractional Differential ◽

The Stability ◽

Distributed Order

We analyze the stability of three classes of distributed order fractional differential equations (DOFDEs) with respect to the nonnegative density function. In this sense, we discover a robust stability condition for these systems based on characteristic function and new inertia concept of a matrix with respect to the density function. Moreover, we check the stability of a distributed order fractional WINDMI system to illustrate the validity of proposed procedure.

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Wavelet Collocation Method for Solving Multiorder Fractional Differential Equations

Journal of Applied Mathematics ◽

10.1155/2012/542401 ◽

2012 ◽

Vol 2012 ◽

pp. 1-19 ◽

Author(s):

M. H. Heydari ◽

M. R. Hooshmandasl ◽

F. M. Maalek Ghaini ◽

F. Mohammadi

Keyword(s):

Differential Equations ◽

Collocation Method ◽

Fractional Differential Equations ◽

Initial Conditions ◽

General Procedure ◽

Wavelet Expansion ◽

Operational Matrices ◽

Chebyshev Wavelets ◽

Block Pulse Functions ◽

Fractional Differential

The operational matrices of fractional-order integration for the Legendre and Chebyshev wavelets are derived. Block pulse functions and collocation method are employed to derive a general procedure for forming these matrices for both the Legendre and the Chebyshev wavelets. Then numerical methods based on wavelet expansion and these operational matrices are proposed. In this proposed method, by a change of variables, the multiorder fractional differential equations (MOFDEs) with nonhomogeneous initial conditions are transformed to the MOFDEs with homogeneous initial conditions to obtain suitable numerical solution of these problems. Numerical examples are provided to demonstrate the applicability and simplicity of the numerical scheme based on the Legendre and Chebyshev wavelets.

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Multi-domain spectral collocation method for variable-order nonlinear fractional differential equations

Computer Methods in Applied Mechanics and Engineering ◽

10.1016/j.cma.2019.01.040 ◽

2019 ◽

Vol 348 ◽

pp. 377-395 ◽

Author(s):

Tinggang Zhao ◽

Zhiping Mao ◽

George Em Karniadakis

Keyword(s):

Differential Equations ◽

Collocation Method ◽

Fractional Differential Equations ◽

Spectral Collocation Method ◽

Variable Order ◽

Spectral Collocation ◽

Nonlinear Fractional Differential Equations ◽

Fractional Differential

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An efficient Haar wavelet collocation method for the numerical solution of multi-term fractional differential equations

Nonlinear Dynamics ◽

10.1007/s11071-015-2326-4 ◽

2015 ◽

Vol 83 (1-2) ◽

pp. 293-303 ◽

Author(s):

S. C. Shiralashetti ◽

A. B. Deshi

Keyword(s):

Differential Equations ◽

Numerical Solution ◽

Collocation Method ◽

Fractional Differential Equations ◽

Haar Wavelet ◽

Wavelet Collocation Method ◽

Fractional Differential

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Numerical solutions of distributed order fractional differential equations in the time domain using the Müntz–Legendre wavelets approach

Numerical Methods for Partial Differential Equations ◽

10.1002/num.22548 ◽

2020 ◽

Vol 37 (1) ◽

pp. 707-731 ◽

Author(s):

Khosrow Maleknejad ◽

Jalil Rashidinia ◽

Tahereh Eftekhari

Keyword(s):

Differential Equations ◽

Fractional Differential Equations ◽

Time Domain ◽

Numerical Solutions ◽

Legendre Wavelets ◽

Fractional Differential ◽

The Time Domain ◽

Distributed Order

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A Generalized Spectral Collocation Method with Tunable Accuracy for Variable-Order Fractional Differential Equations

SIAM Journal on Scientific Computing ◽

10.1137/141001299 ◽

2015 ◽

Vol 37 (6) ◽

pp. A2710-A2732 ◽

Author(s):

Fanhai Zeng ◽

Zhongqiang Zhang ◽

George Em Karniadakis

Keyword(s):

Differential Equations ◽

Collocation Method ◽

Fractional Differential Equations ◽

Spectral Collocation Method ◽

Variable Order ◽

Spectral Collocation ◽

Fractional Differential

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Computational solution of Katugampola conformable fractional differential equations via RBF collocation method

10.1063/1.4981694 ◽

2017 ◽

Author(s):

Fuat Usta

Keyword(s):

Differential Equations ◽

Collocation Method ◽

Fractional Differential Equations ◽

Fractional Differential ◽

Computational Solution

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A generalized fractional-order Chebyshev wavelet method for two-dimensional distributed-order fractional differential equations

Communications in Nonlinear Science and Numerical Simulation ◽

10.1016/j.cnsns.2020.105597 ◽

2021 ◽

Vol 95 ◽

pp. 105597

Author(s):

Quan H. Do ◽

Hoa T.B. Ngo ◽

Mohsen Razzaghi

Keyword(s):

Differential Equations ◽

Fractional Order ◽

Fractional Differential Equations ◽

Two Dimensional ◽

Wavelet Method ◽

Chebyshev Wavelet ◽

Fractional Differential ◽

Distributed Order

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An hp-version Chebyshev collocation method for nonlinear fractional differential equations

Applied Numerical Mathematics ◽

10.1016/j.apnum.2020.08.003 ◽

2020 ◽

Vol 158 ◽

pp. 194-211

Author(s):

Yuling Guo ◽

Zhongqing Wang

Keyword(s):

Differential Equations ◽

Collocation Method ◽

Fractional Differential Equations ◽

Chebyshev Collocation Method ◽

Nonlinear Fractional Differential Equations ◽

Chebyshev Collocation ◽

Fractional Differential

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