A hybrid functions numerical scheme for fractional optimal control problems: Application to nonanalytic dynamic systems
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Date
2018
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Sage Publications LTD
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Abstract
In this paper, a numerical scheme based on hybrid Chelyshkov functions (HCFs) is presented to solve a class of fractional optimal control problems (FOCPs). To this end, by using the orthogonal Chelyshkov polynomials, the HCFs are constructed and a general formulation for their operational matrix of the fractional integration, in the Riemann-Liouville sense, is derived. This operational matrix together with HCFs are used to reduce the FOCP to a system of algebraic equations, which can be solved by any standard iterative algorithm. Moreover, the application of presented method to the problems with a nonanalytic dynamic system is investigated. Numerical results confirm that the proposed HCFs method can achieve spectral accuracy to approximate the solution of FOCPs.
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Keywords
Fractional Optimal Control Problems, Hybrid Chelyshkov Functions, Fractional Calculus, Singular Dynamic System, Gauss-Legendre Quadrature
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Citation
Mohammadi, F.; Moradi, L.; Baleanu, D. "A hybrid functions numerical scheme for fractional optimal control problems: Application to nonanalytic dynamic systems", Journal of Vibration and Control, Vol. 24, No. 21. pp. 5030-5043, (2018).
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Source
Journal of Vibration and Control
Volume
24
Issue
21
Start Page
5030
End Page
5043