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Adopted Chebyshev Collocation Algorithm for Modeling Human Corneal Shape via the Caputo Fractional Derivative

Y. H. Youssri, Ahmed Gamal Atta

2025Contemporary Mathematics12 citationsDOIOpen Access PDF

Abstract

To solve a fractional boundary value problem that simulates the dynamics of the human corneal shape, we offer a semi-analytic spectral collocation procedure. The boundary conditions are exactly satisfied by expanding the proposed approximation solution as a finite sum of certain basis functions, namely a combination of the first kind Chebyshev polynomials. Next, using the typical Chebyshev nodes, we use the spectral collocation method and find explicit forms of the first- and second-order derivatives in both integer and fractional cases. At various values for orders of the fractional derivative and model parameter values, we display a number of graphical outcomes. We study the convergence and truncation error analysis of the proposed expansion. This paper presents a semi-analytic spectral technique to solve a fractional boundary value problem modeling human corneal dynamics. Using the Caputo fractional derivative and Chebyshev nodes, the solution is expanded as a finite sum of compact basis functions, with spectral collocation employed to derive explicit first- and second-order derivatives. Numerical simulations and convergence and error analyses are provided at various fractional orders and model parameters.

Topics & Concepts

MathematicsChebyshev filterFractional calculusCollocation (remote sensing)Chebyshev polynomialsDerivative (finance)Applied mathematicsChebyshev equationCollocation methodAlgorithmMathematical analysisComputer scienceClassical orthogonal polynomialsOrthogonal polynomialsDifferential equationEconomicsOrdinary differential equationFinancial economicsMachine learningFractional Differential Equations SolutionsIterative Methods for Nonlinear Equations
Adopted Chebyshev Collocation Algorithm for Modeling Human Corneal Shape via the Caputo Fractional Derivative | Litcius