Lucas Wavelet Scheme for Fractional Bagley–Torvik Equations: Gauss–Jacobi Approach
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Date
2022
Authors
Koundal, Reena
Kumar, Rakesh
Srivastava, K.
Baleanu, D.
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Abstract
A novel technique called as Lucas wavelet scheme (LWS) is prepared for the treatment of Bagley–Torvik equations (BTEs). Lucas wavelets for the approximation of unknown functions appearing in BTEs are introduced. Fractional derivatives are evaluated by employing Gauss–Jacobi quadrature formula. Further, well-known least square method (LSM) is adopted to compute the residual function, and the system of algebraic equation is obtained. Convergence criterion is derived and error bounds are obtained for the established technique. The scheme is investigated by choosing some reliable test problems through tables and figures, which ensures the convenience, validity and applicability of LWS.
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Keywords
Caputo Derivative, Fractional BTEs, Gauss–Jacobi Quadrature, Least Square Method, Lucas Wavelet
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Citation
Koundal, Reena;...et.al. (2021). "Lucas Wavelet Scheme for Fractional Bagley–Torvik Equations: Gauss–Jacobi Approach", International Journal of Applied and Computational Mathematics, Vol.8, No.1.
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Source
International Journal of Applied and Computational Mathematics
Volume
8
Issue
1