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Scale-Invariant General Fractional Calculus: Mellin Convolution Operators

Vasily E. Tarasov

2023Fractal and Fractional17 citationsDOIOpen Access PDF

Abstract

General fractional calculus (GFC) of operators that is defined through the Mellin convolution instead of Laplace convolution is proposed. This calculus of Mellin convolution operators can be considered as an analogue of the Luchko GFC for the Laplace convolution operators. The proposed general fractional differential operators are generalizations of scaling (dilation) differential operator for the case of general form of nonlocality. Semi-group and scale-invariant properties of these operators are proven. The Hadamard and Hadamard-type fractional operators are special case of the proposed operators. The fundamental theorems for the scale-invariant general fractional operators are proven. The proposed GFC can be applied in the study of dynamics, which is characterized by nonlocality and scale invariance.

Topics & Concepts

Mellin inversion theoremConvolution (computer science)Laplace transformMathematicsInvariant (physics)Differential operatorFractional calculusDilation (metric space)Time-scale calculusHadamard transformPure mathematicsAlgebra over a fieldCalculus (dental)Mathematical analysisComputer scienceFourier transformArtificial neural networkMultivariable calculusMathematical physicsDentistryCombinatoricsControl engineeringMedicineEngineeringFractional Fourier transformFourier analysisMachine learningFractional Differential Equations SolutionsStatistical Mechanics and EntropyMathematical functions and polynomials
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