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Numerical evaluation of fractional Tricomi-type model arising from physical problems of gas dynamics

O. Nikan, J. A. Tenreiro Machado, Z. Avazzadeh, Hossein Jafari

2020Journal of Advanced Research41 citationsDOIOpen Access PDF

Abstract

This paper deals with approximating the time fractional Tricomi-type model in the sense of the Caputo derivative. The model is often adopted for describing the anomalous process of nearly sonic speed gas dynamics. The temporal semi-discretization is computed via a finite difference algorithm, while the spatial discretization is obtained using the local radial basis function in a finite difference mode. The local collocation method approximates the differential operators using a weighted sum of the function values over a local collection of nodes (named stencil) through a radial basis function expansion. This technique considers merely the discretization nodes of each subdomain around the collocation node. This leads to sparse systems and tackles the ill-conditioning produced of global collocation. The theoretical convergence and stability analyses of the proposed time semi-discrete scheme are proved by means of the discrete energy method. Numerical results confirm the accuracy and efficiency of the new approach.

Topics & Concepts

DiscretizationCollocation (remote sensing)StencilMathematicsApplied mathematicsBasis functionFunction (biology)Convergence (economics)Finite differenceFinite difference methodMathematical analysisComputer scienceMachine learningEconomic growthComputational scienceEconomicsBiologyEvolutionary biologyFractional Differential Equations SolutionsNumerical methods in engineeringDifferential Equations and Numerical Methods
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