Efficient Numerical Treatments for a Fractional Optimal Control Nonlinear Tuberculosis Model
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Date
2018
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World Scientific Publ Co Pte Ltd
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Abstract
In this paper, the general nonlinear multi-strain Tuberculosis model is controlled using the merits of Jacobi spectral collocation method. In order to have a variety of accurate results to simulate the reality, a fractional order model of multi-strain Tuberculosis with its control is introduced, where the derivatives are adopted from Caputo's definition. The shifted Jacobi polynomials are used to approximate the optimality system. Subsequently, Newton's iterative method will be used to solve the resultant nonlinear algebraic equations. A comparative study of the values of the objective functional, between both the generalized Euler method and the proposed technique is presented. We can claim that the proposed technique reveals better results when compared to the generalized Euler method.
Description
Al-Mekhlafi, Seham/0000-0003-0351-9679
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Keywords
Tuberculosis Model, Optimal Control Problem, Jacobi Polynomials, Caputo Derivative, Generalized Euler Method
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Citation
Sweilam, N. H.; AL-Mekhlafi, S. M.; Baleanu, D., "Efficient numerical treatments for a fractional optimal control nonlinear Tuberculosis model", International Journal of Biomathematics, Vol. 11, No. 8, (2018).
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Q3
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Q1
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15
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11
Issue
8
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Scopus : 17
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2.04900506
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2
ZERO HUNGER
3
GOOD HEALTH AND WELL-BEING
8
DECENT WORK AND ECONOMIC GROWTH
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INDUSTRY, INNOVATION AND INFRASTRUCTURE
10
REDUCED INEQUALITIES
14
LIFE BELOW WATER
17
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