Affiliation:
1. Department of Mathematics Shiraz University of Technology Shiraz Iran
2. Department of Mathematics and Statistics Mississippi State University Mississippi State Mississippi USA
Abstract
In this work, the Caputo fractional derivative defines the time fractional 3D Sobolev equation. The 2D shifted second kind Chebyshev cardinal polynomials (SSKCCPs) and 2D shifted second kind Chebyshev polynomials (SSKCPs) (as two well‐known classes of basis functions) are utilized to establish a hybrid technique for this new problem. First, the problem solution is approximated simultaneously using the 2D SSKCCPs (relative to
) and 2D SSKCCPs (relative to
). Next, the classical and fractional operational matrices of these polynomials are achieved and applied to make the hybrid algorithm. With a combination of derived operational matrices and the collocation approach, solving the expressed fractional 3D problem turns into solving an equivalent system of algebraic equations. The proposed algorithm's accuracy is checked using four numerical examples.
Subject
General Engineering,General Mathematics
Reference28 articles.
1. An introduction to fractional derivatives, fractional differential equations, to methods of their solution and some of their applications;Podlubny I.;Math. Sci. Eng.,1999
2. Theory of Fractional Engineering Vibrations
3. Three Classes of Fractional Oscillators
4. A wavelet approach for the variable‐order fractional model of ultra‐short pulsed laser therapy;Roohi R.;Eng. Comput.,2021
5. An implicit wavelet collocation method for variable coefficients space fractional advection-diffusion equations
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