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Enhanced shifted Jacobi operational matrices of derivatives: spectral algorithm for solving multiterm variable-order fractional differential equations

H. M. Ahmed

2023Boundary Value Problems26 citationsDOIOpen Access PDF

Abstract

Abstract This paper presents a new way to solve numerically multiterm variable-order fractional differential equations (MTVOFDEs) with initial conditions by using a class of modified shifted Jacobi polynomials (MSJPs). As their defining feature, MSJPs satisfy the given initial conditions. A key aspect of our methodology involves the construction of operational matrices (OMs) for ordinary derivatives (ODs) and variable-order fractional derivatives (VOFDs) of MSJPs and the application of the spectral collocation method (SCM). These constructions enable efficient and accurate numerical computation. We establish the error analysis and the convergence of the proposed algorithm, providing theoretical guarantees for its effectiveness. To demonstrate the applicability and accuracy of our method, we present five numerical examples. Through these examples, we compare the results obtained with other published results, confirming the superiority of our method in terms of accuracy and efficiency. The suggested algorithm yields very accurate agreement between the approximate and exact solutions, which are shown in tables and graphs.

Topics & Concepts

Variable (mathematics)Convergence (economics)MathematicsOrdinary differential equationCollocation (remote sensing)Orthogonal collocationComputationAlgorithmOrder (exchange)Collocation methodNumerical analysisSpectral methodPartial differential equationDifferential equationApplied mathematicsComputer scienceMathematical analysisEconomic growthEconomicsFinanceMachine learningFractional Differential Equations SolutionsNonlinear Waves and SolitonsAdvanced Control Systems Design
Enhanced shifted Jacobi operational matrices of derivatives: spectral algorithm for solving multiterm variable-order fractional differential equations | Litcius